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# Dynamically build list comprehension in Haskell

I am curious if it is possible to dynamically build a list comprehension in Haskell.

As an example, if I have the following:

``````all_pows (a,a') (b,b') = [ a^y * b^z | y <- take a' [0..], z <- take b' [0..] ]
``````

I get what I am after

``````*Main> List.sort \$ all_pows (2,3) (5,3)
[1,2,4,5,10,20,25,50,100]
``````

However, what I'd really like is to have something like

``````all_pows [(Int,Int)] -> [Integer]
``````

So that I can support `N` pairs of arguments without building `N` versions of `all_pows`. I'm still pretty new to Haskell so I may have overlooked something obvious. Is this even possible?

-

The magic of the list monad:

```ghci> let powers (a, b) = [a ^ n | n <- [0 .. b-1]]
ghci> powers (2, 3)
[1,2,4]
ghci> map powers [(2, 3), (5, 3)]
[[1,2,4],[1,5,25]]
ghci> sequence it
[[1,1],[1,5],[1,25],[2,1],[2,5],[2,25],[4,1],[4,5],[4,25]]
ghci> mapM powers [(2, 3), (5, 3)]
[[1,1],[1,5],[1,25],[2,1],[2,5],[2,25],[4,1],[4,5],[4,25]]
ghci> map product it
[1,5,25,2,10,50,4,20,100]
ghci> let allPowers list = map product \$ mapM powers list
ghci> allPowers [(2, 3), (5, 3)]
[1,5,25,2,10,50,4,20,100]
```

This probably deserves a bit more explanation.

You could have written your own

``````cartesianProduct :: [[a]] -> [[a]]
cartesianProduct [] = [[]]
cartesianProduct (list:lists)
= [ (x:xs) | x <- list, xs <- cartesianProduct lists ]
``````

such that `cartesianProduct [[1],[2,3],[4,5,6]]``[[1,2,4],[1,2,5],[1,2,6],[1,3,4],[1,3,5],[1,3,6]]`.

However, comprehensions and monads are intentionally similar. The standard Prelude has `sequence :: Monad m => [m a] -> m [a]`, and when `m` is the list monad `[]`, it actually does exactly what we wrote above.

As another shortcut, `mapM :: Monad m => (a -> m b) -> [a] -> m [b]` is simply a composition of `sequence` and `map`.

For each inner list of varying powers of each base, you want to multiply them to a single number. You could write this recursively

``````product list = product' 1 list
where product' accum [] = accum
product' accum (x:xs)
= let accum' = accum * x
in accum' `seq` product' accum' xs
``````

or using a fold

``````import Data.List
product list = foldl' (*) 1 list
``````

but actually, `product :: Num a => [a] -> a` is already defined! I love this language ☺☺☺

-
`let powers (a, b) = [a ^ n | n <- [0 .. b-1]]` – Tordek Feb 27 '10 at 21:42
@Tordek Thanks, I skimmed over the original a bit too quickly. – ephemient Feb 27 '10 at 22:30
Beautiful, thank you. – ezpz Feb 27 '10 at 22:48