StableMemo should do exactly what you want, but I don't have any experience with that.
There are two main approaches: use the
Ord property to store the keys in a tree structure, like
Map. That doesn't require the integral property you'd need for e.g. a
MemoTrie approach; it is thus slower but very simple.
The alternative, that works with yet much more general types, is to map unorderedly onto a large integral domain with a Hash function, in order to, well, store the keys in a hash map. This is going to be substantially faster but pretty much just as simple since the interface of
HashMap largely matches that of
Map, so you probably want to go that way.
Now, sadly neither is quite as simple to use as
MemoCombinators. That builds directly on
IntTrie, which is specialised for offering a lazy / infinite / pure interface. Both
Map and particularly
HashMap, in contrast, can be used very well for impure memoisation, but are not inherently able to do it purely. You may throw in some
UnsafePerformIO (uh oh), or just do it openly in the
IO monad (yuk!). Or use
But it's actually easy and safe if you already know which values it's going to be, at least most of the calls, at compile-time. Then you can just fill a local hash map with those values in the beginning, and at each call look up if it's there and otherwise simply call the expensive function directly:
import qualified Data.HashMap.Lazy as HM
type X = Double -- could really be anything else
notThatSlow :: Double -> X
notThatSlow = \v -> case HM.lookup v memo of
Just x -> x
Nothing -> slow v
where memo = HM.fromList [ (v, x) | v<-expectedValues, let x = slow v ]