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I have a list of lists (in erlang, strings are lists) which looks like this:

["abc","def"]

and I would like to get the following combinations in a list returned by a function:

["ad", "ae", "af", "bd", "be", "bf", "cd", "ce", "cf"]

Is it possible with list-comprehension? I don't know the dimension of the list beforehand

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2 Answers 2

up vote 7 down vote accepted

If you don't know the dimension of the input, then you need to use recursion as @legoscia said:

cartesian([H])   -> [[A] || A <- H];
cartesian([H|T]) -> [[A|B] || A <- H, B <- cartesian(T)].

A 1-dim input "abc" is turned into ["a", "b", "c"], everything else is recursion.

> cartesian:cartesian(["abc", "def", "ghi"]).
 ["adg","adh","adi","aeg","aeh","aei","afg","afh","afi",
 "bdg","bdh","bdi","beg","beh","bei","bfg","bfh","bfi","cdg",
 "cdh","cdi","ceg","ceh","cei","cfg","cfh","cfi"]

Edit: Or easier, yet: Let a 0-dim argument return the set that contains the empty set. I think that's what a mathematician would do, too.

cartesian([H|T]) -> [[A|B] || A <- H, B <- cartesian(T)];
cartesian([]) -> [[]].
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If you have exactly two lists, then you can do it with a list comprehension like this:

1> [[X,Y] || X <- "abc", Y <- "def"].
["ad","ae","af","bd","be","bf","cd","ce","cf"]

If you have an arbitrary number of lists, you could do it with a list comprehension inside a recursive function.

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Recursive function? You can add as many inputs to the list comprehension as you like, so I guess (explicit) recursion is only needed if you don't know the dimension beforehand. –  Kay May 27 '14 at 9:47
    
I have more than two lists. Can you provide an example for the recursive solution? –  Malte May 27 '14 at 9:47
    
[[X,Y,Z] || X <- "abc", Y <- "def", Z <- "ghi"] –  Kay May 27 '14 at 9:47
    
I don't know the dimension beforehand. –  Malte May 27 '14 at 9:50

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