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In the Control.Proxy tutorial for the pipes-3.1.0 package, the author provides this function:

cache :: (Proxy p, Ord key) => key -> p key val key val IO r
cache = runIdentityK (loop M.empty) where
    loop _map key = case M.lookup key _map of
        Nothing -> do
            val  <- request key
            key2 <- respond val
            loop (M.insert key val _map) key2
        Just val -> do
            lift $ putStrLn "Used cache!"
            key2 <- respond val
            loop _map key2

Because I'd like to have a concurrent application caching requests, I have the following data type

newtype Cache k v = Cache (MVar (M.Map k v))

and now I want a new cache function with the signature

cache :: (Proxy p, Ord k) => Cache k v -> k -> p k v k v IO r
cache (Cache c) k = readMVar c >>= \m -> runIdentityK $ loop m k
    where loop m key = case M.lookup key m of
            Nothing -> do
                val <- request key
                respond val >>= loop (M.insert key val m)
            Just val -> respond val >>= loop m

however, this fails to typecheck since readMVar is in the IO monad, and runIdentityK is in the Proxy p => p k v k v IO r monad. Surely I can lift readMVar into this proxy monad since it's a transformer over IO, but I cant find the right combinator.

share|improve this question
Petr's version is also much safer from deadlock compared to Chris Dueck's! Imagine that request key also tries to access the same Cache. – Chris Kuklewicz Feb 6 '13 at 16:52
up vote 5 down vote accepted

The solution was a simple lift. I had thought to use it before but apparently hadn't tried hard enough. Here is a rough, type-checking version of my desired cache

cache = runIdentityK . loop
    where loop (Cache c) key = lift (takeMVar c) >>= \m -> case M.lookup key m of
            Nothing -> do
                val <- request key
                lift . putMVar c $ M.insert key val m
                respond val >>= loop (Cache c)
            Just val -> do
               lift $ putMVar c m 
               respond val >>= loop (Cache c)
share|improve this answer
This looks quite unsafe when there are exceptions. The take & put should be replaced by withMVar. – Chris Kuklewicz Feb 6 '13 at 16:42
withMVar won't work since he needs to do pipe actions in between acquisition and release, but he can use bracket from pipes-safe to safely acquire and release it in the face of exceptions. – Gabriel Gonzalez Feb 7 '13 at 13:22

It's just as simple as adding lift. However, it seems that your implementation doesn't do what you intended. You read your MVar only once at the start and then never use it again, just pass the updated map around in the loop. If different threads should see changes through the MVar, you have to update it as well. A suggestion (compiles, but I haven't tested how it works):

cache :: (Proxy p, Ord k) => Cache k v -> k -> p k v k v IO r
cache (Cache c) k = runIdentityK loop k
      loop key = do
        m <- lift (readMVar c)
        case M.lookup key m of
            Nothing -> do
                val <- request key
                lift $ modifyMVar_ c (return . M.insert key val)
                respond val >>= loop
            Just val -> respond val >>= loop
share|improve this answer
Chris' version is probably better as it avoids a possible race condition by using takeMVar/putMVar (although for a cache it probably isn't an issue). – Petr Pudlák Feb 6 '13 at 15:14
Note about Petr's comment: the race condition is two threads call readMVar then the two threads call modifyMVar. If done with the same key then the request is made twice instead of once. The two inserts should be of the same val so the correctness will not be harmed. – Chris Kuklewicz Feb 6 '13 at 16:46

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