# Removing syntactic sugar: List comprehension in Haskell

Can I unsugar list comprehension in this expression:

``````[(i,j) | i <- [1..4], j <- [i+1..4]]
``````

This is the output:

``````[(1,2),(1,3),(1,4),(2,3),(2,4),(3,4)]
``````

How can I, with map, filter and so on, write that piece of code?

edit

Here an other:

``````[(i,j,k) | i <- [1..6], j <- [i+1..6],k <- [j+1..6]]
``````

This is the output:

``````[(1,2,3),(1,2,4),(1,2,5),(1,2,6),(1,3,4),(1,3,5),(1,3,6),(1,4,5),(1,4,6),(1,5,6),(2,3,4),(2,3,5),(2,3,6),(2,4,5),(2,4,6),(2,5,6),(3,4,5),(3,4,6),(3,5,6),(4,5,6)]
``````
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List comprehensions (in fact, Monad comprehensions) can be desugared into `do` notation.

``````do i <- [1..4]
j <- [i+1..4]
return (i,j)
``````

Which can be desugared as usual:

``````[1..4]   >>= \i ->
[i+1..4] >>= \j ->
return (i,j)
``````

It is well known that `a >>= \x -> return b` is the same as `fmap (\x -> b) a`. So an intermediate desugaring step:

``````[1..4] >>= \i ->
fmap (\j -> (i,j)) [i+1..4]
``````

For lists, `(>>=) = flip concatMap`, and `fmap = map`

``````(flip concatMap) [1..4] (\i -> map (\j -> (i,j) [i+1..4])
``````

`flip` simply switches the order of the inputs.

``````concatMap (\i -> map (\j -> (i,j)) [i+1..4]) [1..4]
``````

And this is how you wind up with Tsuyoshi's answer.

The second can similarly be desugared into:

``````concatMap (\i ->
concatMap (\j ->
map       (\k ->
(i,j,k))
[j+1..6])
[i+1..6])
[1..6]
``````
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A simple typo in your post, /i instead of \i –  Masse Nov 7 '11 at 7:29
@Masse: fixed, thanks. –  Dan Burton Nov 7 '11 at 22:18
``````concatMap (\i -> map (\j -> (i, j)) [i+1 .. 4]) [1 .. 4]
``````
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Thanks for answer :) –  Carlochess Nov 6 '11 at 18:12

The desugared code is:

``````concatMap (\i -> concatMap (\j -> (i, j) : []) [i+1..4]) [1..4]
``````

Which can be refactored to Tsuyoshi Ito's answer.

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There is yet another translation scheme, it is due to Wadler, as far as I know.

This would give:

``````let
lc_outer (x:xs) = let lc_inner (y:ys) = (x,y) : lc_inner ys
lc_inner []     = lc_outer xs
in lc_inner [x+1.. 4]
lc_outer [] = []
in  lc_outer [1..4]
``````

This translation avoids needless construction of singleton lists in the innermost level that would need to get flattened with concatMap later.

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