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
do mf <- memoize f s <- mf "world" t <- mf "world" return (s,t)
"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
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 where 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:
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
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
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.