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Consider following example:

safeMapM f xs = safeMapM' xs []
    where safeMapM' []     acc = return $ reverse acc
          safeMapM' (x:xs) acc = do y <- f x
                                    safeMapM' xs (y:acc)

mapM return largelist      -- Causes stack space overflow on large lists
safeMapM return largelist  -- Seems to work fine

Using mapM on large lists causes a stack space overflow while safeMapM seems to work fine (using GHC 7.6.1 with -O2). However I was not able to find a function similar to safeMapM in the Haskell standard libraries.

Is it still considered good practice to use mapM (or sequence for that matter)?
If so, why is it considered to be good practice despite the danger of stack space overflows?
If not which alternative do you suggest to use?

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Maybe mapM is faster if it doesn't overflow because you don't have to reverse? Did you measure it? –  Niklas B. Mar 21 '13 at 14:08
    
can you post the Main module you used to test? –  jberryman Mar 21 '13 at 14:12
3  
Also, there are monads (like Control.Monad.State.Lazy) where something like take 100 <$> mapM id [1..] terminates. take 100 <$> safeMapM id [1..] cannot possibly terminate, regardless of the monad –  Niklas B. Mar 21 '13 at 15:06
    
@jberryman main = mapM return [1..10000000] >> return () –  jonnydee Mar 21 '13 at 16:58
    
@NiklasB. I am not proposing safeMapM as a better solution. In fact you showed a reason why not. But while mapM seems to be common it has the downside of a potential stack space overflow. My question is why or when (not) should we use mapM? –  jonnydee Mar 21 '13 at 17:07
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2 Answers

up vote 8 down vote accepted

As Niklas B., the semantics of mapM are those of an effectful right fold, and it terminates successfully in more cases than a flipped version. In general, mapM makes more sense, as it is rare that we would want to do a result-yielding map on an enormous list of data. More commonly, we'll want to evaluate such a list for effects, and in that case mapM_ and sequence_, which throw away the results, are typically what are recommended.

Edit: in other words, despite the issue raised in the question, yes, mapM and sequence are commonly used and typically considered good practice.

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I want my code to run in all cases, not just in "more cases". And a lot of effects come with return values e.g. user input. Niklas B. example I can catch while developing, stack space overflows with large lists might occur after deployment. Much more difficult to find imho –  jonnydee Mar 21 '13 at 17:57
2  
there are different semantics and different tradeoffs. so you need to pick the one that suits your situation. that's the answer! the only answer! the other code you provide also will fail on sufficiently large lists -- it will just take larger lists. you can also just add stack space to the program. just, you know, understand the tradeoffs and then make a choice. –  sclv Mar 21 '13 at 18:25
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If so, why is it considered to be good practice despite the danger of stack space overflows? If not which alternative do you suggest to use?

If you want to process the list elements as they are generated, use either pipes or conduit. Both will never build up an intermediate list.

I'll show the pipes way, since that is my library. I'll first begin with an infinite list of numbers generated in the IO monad from user input:

import Control.Proxy

infiniteInts :: (Proxy p) => () -> Producer p Int IO r
infiniteInts () = runIdentityP $ forever $ do
    n <- lift readLn
    respond n

Now, I want to print them as they are generated. That requires defining a downstream handler:

printer :: (Proxy p) => () -> Consumer p Int IO r
printer () = runIdentityP $ forever $ do
    n <- request ()
    lift $ print n

Now I can connect the Producer and Consumer using (>->), and run the result using runProxy:

>>> runProxy $ infiniteInts >-> printer
4<Enter>
4
7<Enter>
7
...

That will then read Ints from the user and echo them back to the console as they are generated without saving more than a single element in memory.

So usually if you want an effectful computation that generates a stream of elements and consumes them immediately, you don't want mapM. Use a proper streaming library.

If you want to learn more about pipes, then I recommend reading the tutorial.

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