Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a function

f :: MonadIO m => a -> m b

which takes some input and returns an IO computation that will yield output. I want to "memoize" f so that I only ever perform these computations once for each input. For example, if

f :: String -> IO ()
f s = putStrLn ("hello " ++ s) >> return s

then I want a function memoize such that

  mf <- memoize f
  s <- mf "world"
  t <- mf "world"
  return (s,t)

prints "hello world" exactly once and returns ("world", "world"). The program I'm writing is multi-threaded, so this property should hold even if different threads are all calling mf.

Below is the (terrible) solution I've come up with so far. My question is whether and how it can be improved.

memoize :: (MonadIO m, Ord a) => (a -> m b) -> m (a -> m b)
memoize f = do
  cache <- liftIO $ newTVarIO Map.empty
  return $ \a -> do
              v <- liftIO $ atomically $ lookupInsert cache a
              b <- maybe (f a) return =<< liftIO (atomically $ takeTMVar v)
              liftIO $ atomically $ putTMVar v $ Just b
              return b
      lookupInsert :: Ord a => TVar (Map a (TMVar (Maybe b))) -> a -> STM (TMVar (Maybe b))
      lookupInsert cache a = do
                         mv <- Map.lookup a <$> readTVar cache
                         case mv of
                           Just v -> return v
                           Nothing -> do
                                   v <- newTMVar Nothing
                                   modifyTVar cache (Map.insert a v)
                                   return v

There are a few things going on here:

1) cache has type TVar (Map a (TMVar (Maybe b))). It maps inputs to TMVar's that contain either a computed value, or Nothing (which indicates that a value hasn't been computed yet). The function lookupInsert inspects cache, and inserts a new TMVar initialized to Nothing if none is present already.

2) The returned action first obtains the v :: TMVar (Maybe b) associated to a, then takes it, and either performs the computation f a to obtain a result or returns the value stored in the Maybe if it's available. This take and put pattern is so that two different threads don't both run the computation f a after seeing that it hasn't been run yet.

share|improve this question
I think you want the values in the map to be either TVar (Maybe a) or TMVar b (which is equivalent to TVar (Maybe b) under the hood). You have two layers of emptiness when it seems like you only need one. Second, you should combine all of your atomically actions into a single transaction to avoid race conditions. –  Gabriel Gonzalez Apr 9 '13 at 19:50
I'm not sure how to combine the atomically actions since we might have to do the computation f a in the middle. The latter exists in the monad m, so it seems like the take and put must be lifted to m. –  davidsd Apr 9 '13 at 19:52
Looks a bit like you're in the wrong monad to me. –  leftaroundabout Apr 9 '13 at 20:04
@leftaroundabout Yeah, what I really want is to be able to lift m actions into STM. I don't think this is possible. –  davidsd Apr 9 '13 at 20:12
@davidsd You're right, I missed the f, but you can still combine the first two atomically commands since there is no intervening IO action. –  Gabriel Gonzalez Apr 9 '13 at 20:27

1 Answer 1

I thought what you wanted was impossible, but turns out it is.


I still can't figure out why that works!

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.