Just learning how to get a deeper intuitive grasp of monads and transformers; a lot of things that might seem obvious are still kind of tricky to me haha.

So I have a computation that lives in the `Rand`

monad, but *inside* it, there is another "sub-computation" (or multiple) that lives inside an `ST`

monad (or `State`

monad, for all it matters ... `ST`

only for performance but I think `State`

works just as well in this context).

The entire computation doesn't need to be inside the `ST`

monad...and this sub-computation will be called multiple times with different starting states, so I don't want to coerce the entire thing into an `ST`

(unless that's the idiomatic way).

Without randomness, the structure looks like this:

```
main = print mainComp
mainComp :: Int
mainComp = otherComp + (subComp 1) + (subComp 2)
subComp :: Int -> Int
subComp n = runST $ do
-- generate state based on n
-- ...
replicateM_ 100 mutateState
-- ...
-- eventually returns an ST s Int
mutateState :: ST s ()
mutateState = -- ...
```

Basically things work pretty well and there is complete referential transparency in `mainComp`

and `subComp`

.

This is how I've so far used `Rand`

--

```
main = (evalRandIO mainComp) >>= print
mainComp :: (RandomGen g) => Rand g Int
mainComp = do
subResultA <- subComp 1
subResultB <- subComp 2
return $ otherComp + subResultA + subResultB
subComp :: (RandomGen g) => Int -> Rand g Int
subComp = return $ runST $ do -- is this ok to just throw in return?
-- generate state based on n
-- ...
replicateM_ 100 mutateState
-- ...
-- eventually returns an ST s Int (??)
mutateState :: ??
mutateState = ??
```

What is the type of `mutateState`

supposed to be, if I wanted to use the random seed and the `Rand`

monad in it? I think I might want to use a return type of `RandT g (ST s) ()`

, but how do I make that fit in with the type expected in the `runST`

in `subComp`

?