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I have a function

slow :: Double -> Double

which gets called very often (hundreds of millions of times), but only gets called on about a thousand discrete values. This seems like an excellent candidate for memoization, but I can't figure out how to memoize a function of a Double.

The standard technique of making a list doesn't work, since it's not an integral type. I looked at Data.MemoCombinators, but it doesn't natively support Doubles. There was a bits function for handling more data types, but Double isn't an instance of Data.Bits.

Is there an elegant way to memoize `slow?

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2  
If you know the values it'll be called on ahead of time, you could use Data.Map, fromList, and map. If you don't know the values ahead of time, you need some sort of lazy data structure that represents "application of slow to all possible values of type Double". The difficulty of doing that in a sane way is why there's nothing for it in Data.MemoCombinators at the moment. – Carl Jul 16 '13 at 19:22
1  
Compute all the values at compile time and just build a giant case statement with 1000 branches. You won't get any more efficient than that. – Gabriel Gonzalez Jul 17 '13 at 0:45
    
@GabrielGonzalez: I'd love to, but the 1000 branches aren't known until run time. – user640078 Jul 17 '13 at 21:02
up vote 6 down vote accepted

You could always use ugly-memo. The internals are impure, but it's fast and does what you need (except if the argument is NaN).

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I think 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 StableMemo.

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 ]
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