# Nested loop equivalent

I want to do a list of concatenations in Haskell. I have [1,2,3] and [4,5,6] and i want to produce [14,15,16,24,25,26,34,35,36]. I know I can use zipWith or sth, but how to do equivalent of: foreach in first_array foreach in second_array

I guess I have to use map and half curried functions, but can't really make it alone :S

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You could use list comprehension to do it:

``````[x * 10 + y | x <- [1..3], y <- [4..6]]
``````

In fact this is a direct translation of a nested loop, since the first one is the outer / slower index, and the second one is the faster / inner index.

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You can exploit the fact that lists are monads and use the do notation:

``````do
a <- [1, 2, 3]
b <- [4, 5, 6]
return \$ a * 10 + b
``````

You can also exploit the fact that lists are applicative functors (assuming you have `Control.Applicative` imported):

``````(+) <\$> (*10) <\$> [1,2,3] <*> [4,5,6]
``````

Both result in the following:

``````[14,15,16,24,25,26,34,35,36]
``````
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If you really like seeing `for` in your code you can also do something like this:

``````for :: [a] -> (a -> b) -> [b]
for = flip map

nested :: [Integer]
nested = concat nested_list
where nested_list =
for [1, 2, 3] (\i ->
for [4, 5, 6] (\j ->
i * 10 + j
)
)
``````

You could also look into `for` and `Identity` for a more idiomatic approach.

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Nested loops correspond to nested uses of `map` or similar functions. First approximation:

``````notThereYet :: [[Integer]]
notThereYet = map (\x -> map (\y -> x*10 + y) [4, 5, 6]) [1, 2, 3]
``````

That gives you nested lists, which you can eliminate in two ways. One is to use the `concat :: [[a]] -> [a]` function:

``````solution1 :: [Integer]
solution1 = concat (map (\x -> map (\y -> x*10 + y) [4, 5, 6]) [1, 2, 3])
``````

Another is to use this built-in function:

``````concatMap :: (a -> [b]) -> [a] -> [b]
concatMap f xs = concat (map f xs)
``````

Using that:

``````solution2 :: [Integer]
solution2 = concatMap (\x -> map (\y -> x*10 + y) [4, 5, 6]) [1, 2, 3]
``````

Other people have mentioned list comprehensions and the list monad, but those really bottom down to nested uses of `concatMap`.

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Because `do` notation and the list comprehension have been said already. The only other option I know is via the `liftM2` combinator from `Control.Monad`. Which is the exact same thing as the previous two.

``````liftM2 (\a b -> a * 10 + b) [1..3] [4..6]
``````
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... only shorter (than all but first). :) nicccce! – Will Ness Oct 3 '14 at 15:58

The general solution of the concatenation of two lists of integers is this:

``````concatInt [] xs = xs
concatInt xs [] = xs
concatInt xs ys = [join x y | x <- xs , y <- ys ]
where
join x y = firstPart + secondPart
where
firstPart = x *  10 ^ lengthSecondPart
lengthSecondPart = 1 + (truncate \$ logBase 10 (fromIntegral y))
secondPart = y
``````

Example: concatInt [1,2,3] [4,5,6] == [14,15,16,24,25,26,34,35,36]

More complex example: concatInt [0,2,10,1,100,200] [24,2,999,44,3] == [24,2,999,44,3,224,22,2999,244,23,1024,102,10999,1044,103,124,12,1999,144,13,10024,1002,100999,10044,1003,20024,2002,200999,20044,2003]

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