I find this answer and this wiki page to be excellent introductions to memoization in Haskell. They do, however, still leave me with a question that I hope to get answered:

It seems to me that the technique used requires you to "open up" (as in "access the internals of") the data structure you use to store your memoization. For example, 1 implements a table structure and 2 implements a tree in section 3. Is it possible to do something similar with a pre-made data structure? Suppose, for example, that you think that `Data.Map`

is really awesome, and would like to store your memoized values in such a `Map`

. Can one approach memoization with a pre-made data structure such as this, where one does *not* implement the structure itself, but rather use a pre-made one?

Hopefully someone will give me a hint on how to think, or, perhaps more likely, correct my misunderstanding of functional memoization in general.

**Edit:** I *can* think of one way to do it, but it's not at all elegant: If `f :: a -> b`

, then one can probably easily make a memoized version `f' :: Map a b -> a -> (Map a b, b)`

, where the first argument is the memoization storage, and the output pair contains a potentially updated storage and the computed value. This state-passing is certainly not what I want (although I guess it could be wrapped in a monad, but it's several orders of magnitudes uglier than the approach in 1 and 2).

**Edit 2:** Maybe it helps to try and express my current way of (incorrect) thought. Currently, I seem to repeatedly pull myself, against my will, into the non-solution

```
import qualified Data.Map as Map
memo :: (Ord a) => [a] -> (a -> b) -> (a -> b)
memo domain f = (Map.!) storage
where
storage = Map.fromList (zip domain (map f domain))
```

The more I stare at this, the more I realize I've misunderstood something basic. You see, it feels to me that my `memo [True, False]`

is equivalent to the `bool`

memoizer of 1.