I'm working on implementing the UCT algorithm in Haskell, which requires a fair amount of data juggling. Without getting into too much detail, it's a simulation algorithm where, at each "step," a leaf node in the search tree is selected based on some statistical properties, a new child node is constructed at that leaf, and the stats corresponding to the new leaf and all of its ancestors are updated.

Given all that juggling, I'm not really sharp enough to figure out how to make the whole search tree a nice immutable data structure à la Okasaki. Instead, I've been playing around with the `ST`

monad a bit, creating structures composed of mutable `STRef`

s. A contrived example (unrelated to UCT):

```
import Control.Monad
import Control.Monad.ST
import Data.STRef
data STRefPair s a b = STRefPair { left :: STRef s a, right :: STRef s b }
mkStRefPair :: a -> b -> ST s (STRefPair s a b)
mkStRefPair a b = do
a' <- newSTRef a
b' <- newSTRef b
return $ STRefPair a' b'
derp :: (Num a, Num b) => STRefPair s a b -> ST s ()
derp p = do
modifySTRef (left p) (\x -> x + 1)
modifySTRef (right p) (\x -> x - 1)
herp :: (Num a, Num b) => (a, b)
herp = runST $ do
p <- mkStRefPair 0 0
replicateM_ 10 $ derp p
a <- readSTRef $ left p
b <- readSTRef $ right p
return (a, b)
main = print herp -- should print (10, -10)
```

Obviously this particular example would be much easier to write without using `ST`

, but hopefully it's clear where I'm going with this... if I were to apply this sort of style to my UCT use case, is that wrong-headed?

Somebody asked a similar question here a couple years back, but I think my question is a bit different... I have no problem using monads to encapsulate mutable state when appropriate, but it's that "when appropriate" clause that gets me. I'm worried that I'm reverting to an object-oriented mindset prematurely, where I have a bunch of objects with getters and setters. Not exactly idiomatic Haskell...

On the other hand, if it *is* a reasonable coding style for some set of problems, I guess my question becomes: are there any well-known ways to keep this kind of code readable and maintainable? I'm sort of grossed out by all the explicit reads and writes, and especially grossed out by having to translate from my `STRef`

-based structures inside the `ST`

monad to isomorphic but immutable structures outside.

`time ∩ budget`

– Thomas Eding Oct 24 '11 at 20:05`liftM2`

:`mkStRefPair a b = liftM2 STRefPair (newSTRef a) (newSTRef b)`

,`liftM2 (,) (readSTRef $ left p) (readSTRef $ right p)`

– sdcvvc Oct 24 '11 at 22:40isa good rule other than "use`ST`

when you need mutation" and "you need mutation when the algorithm demands mutation to preserve complexity bounds" and "decide if the algorithm needs mutation to preserve complexity bounds by analyzing the algorithm." – sclv Oct 27 '11 at 15:36