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I'm running a number of times now into a similar pattern which is error-prone (typos can skip some caching) and simply doesn't look nice to me. Is there a better way of writing something like this?

sum_with_cache' result cache ((p1,p2,p3,p4):partitions) = let
        (cache_p1, sol1) = count_noncrossing' cache p1
        (cache_p2, sol2) = count_noncrossing' cache_p1 p2
        (cache_p3, sol3) = count_noncrossing' cache_p2 p3
        (cache_p4, sol4) = count_noncrossing' cache_p3 p4
    in sum_with_cache' (result+(sol1*sol2*sol3*sol4)) cache_p4 partitions

So basically N operations which can update the cache?

I could write also something like:

process_with_cache' res cache _ [] = (cache, res)
process_with_cache' res cache f (x:xs) =
    let (new_cache, r) = f cache x
    in process_with_cache' (r:res) new_cache f xs
process_with_cache = process_with_cache' []

But that doesn't look really clean either. Is there a nicer way of writing this code?

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If you want to maintain an implicit state between function calls, look at Control.Monad.State. –  Koterpillar Mar 17 '13 at 2:13
Are you trying to build a memo table? haskell.org/haskellwiki/Memoization –  Don Stewart Mar 17 '13 at 11:29

1 Answer 1

Another similar pattern is when you request a series of named random numbers:

let (x, rng') = random rng''
    (y, rng)  = random rng'
in (x^2 + y^2, rng)

This is exactly when using a state monad is the right way to go:

import Control.Monad.State

For all random number generators of type (RandomGen g) => g there is a state monad State g, which threads the state implicitly:

do x <- state random
   y <- state random
   return (x^2 + y^2)

The state function simply takes a function of type s -> (a, s) and turns it into a computation of type State s a, in this case:

state :: (RandomGen g) => (g -> (a, g)) -> State g a

You can run a State computation by using runState, evalState or execState:

runState (liftA2 (\x y -> x^2 + y^2) (state random) (state random))
         (mkStdGen 0)
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