Below is the source of a sample program:

When I run it from ghci both printJob and printJob2 run fine and write ten lines into a text file.

But when compiled with -threaded flag, the program writes only one line.

I have ghc 7.0.3 on ArchLinux

Here's the compile command:

ghc -threaded -Wall -O2 -rtsopts -with-rtsopts=-N -o testmvar testmvar.hs

What am I am doing wrong ? Why it does not work in threaded mode ?

import Control.Concurrent.MVar
import Control.Concurrent (forkIO)
import Control.Exception (bracket)
import Control.Monad (forM_)
import System.IO.Unsafe (unsafePerformIO)
import System.IO (hPutStrLn, stderr)

{-# NOINLINE p #-}
p :: MVar Int
p = unsafePerformIO $ newMVar (1::Int)

{-# NOINLINE printJob #-}
printJob x = bracket (takeMVar p) (putMVar p . (+ 1))
                   (\a -> do
                       appendFile "mvarlog.txt" $ "Input: " ++ x ++ "; Counter: " ++ show a ++ "\n"

{-# NOINLINE printJob2 #-}
printJob2 = unsafePerformIO $ do
   p2 <- newEmptyMVar
   return $ (\x -> bracket (putMVar p2 True) (\_ -> takeMVar p2)
                   (\_ -> do
                       appendFile "mvarlog.txt" $ "preformed " ++ x ++ "\n"

main = do
  forM_ [1..10]
    (\x -> forkIO $ printJob (show x))

EDIT: hammar pointed out that if main application exits earlier than all spawned threads, then they will be killed and suggested to add a delay at the end of main. I did and as he predicted, it works.

  • 3
    I'm not sure what's going on here (it's possible that compiling is triggering optimizations that GHCi isn't, and those are eliminating calls to unsafePerformIO), but I feel like it's worth saying, once again, that unsafePerformIO is, as the name implies, unsafe, and things will break if you use it. (OK, unless you're being extremely, extremely careful, but possibly then too.) – Antal Spector-Zabusky Feb 26 '12 at 0:07
  • 2
    Do you get the same result if you add a delay at the end of main? All other threads are killed once the main thread finishes, so depending on how things get scheduled this might do nothing -- independently of any issues related to unsafePerformIO. – hammar Feb 26 '12 at 0:19
  • @hammar You are right! I added threadDelay at the end of main and now it all works fine. Thank you!, If you put it as a separate answer, i'll accept it. – Vagif Verdi Feb 26 '12 at 0:26
  • tip: for top level MVars and more, have a look at the safe globals package! – danr Feb 27 '12 at 11:38
  • I am on ghc 7.0.3. From the safe-globals page: This library may not work properly on GHC before 7.4, due to a GHC bug: hackage.haskell.org/trac/ghc/ticket/5558 – Vagif Verdi Feb 27 '12 at 17:12

The problem is that your main thread finishes too soon, and when the main thread of a Haskell program finishes, all other threads get killed automatically. Depending on how the threads get scheduled, this might happen before any of the threads have had a chance to run at all.

A quick and dirty solution is to simply add a threadDelay at the end of main, though a more robust method would be to use a synchronization primitive like an MVar to signal when it's OK for the main thread to finish.

For example:

main = do
  vars <- forM [1..10] $ \x -> do
    done <- newEmptyMVar -- Each thread gets an MVar to signal when it's done
    forkIO $ printJob (show x) >> putMVar done ()
    return done

  -- Wait for all threads to finish before exiting
  mapM_ takeMVar vars
  • 3
    All this said, using unsafePerformIO is almost certainly a bad idea here. There are ways around it for this use case. – Louis Wasserman Feb 26 '12 at 2:51
  • @Louis I would love to learn if you show me alternative way to create a semaphore without leaking abstractions. Originally i had it declared in global structure and initialized in main before starting the application server and then passing it explicitly as a parameter to printJob function. But that's simply wrong from encapsulation point of view. – Vagif Verdi Feb 27 '12 at 18:11

Of COURSE it doesn't work. Using unsafePerformIO always comes back to haunt you. Structure your code to not use it. Using it to create global variables is not a legitimate use of it. That is what the reader monad is for. You don't need unsafePerformIO for anything in Haskell.

It kills me when people recommend this "trick" when it is clearly broken. It is like the blind leading the blind. Just don't do it and you won't have problems using Haskell. Haskell has really beautiful and elegant solutions to every problem you throw at it, but if you insist on fighting it instead of learning it then you will always keep running into bugs.

  • 4
    I'm sorry but you are a moron. I am using it to create a semaphore for shared resource (printer). There's no other way to do it but to use global MVar. And here you come spewing bullshit about "evil" UnsafePerformIO. It's not evil. It's just an advanced tool. Obviously not for the likes of you. – Vagif Verdi Feb 27 '12 at 2:22
  • You are correct that it requires an MVar, but you aren't correct that it requires unsafePerformIO. There is nothing preventing you from initializing it within the body of your main function and passing the MVar reference around. If you don't like passing the variable reference around, use the reader monad. If you don't like to structure your code functionally at all, then why are you using Haskell? – Gabriel Gonzalez Feb 27 '12 at 23:24
  • Who says anything about requiring UnsafePerformIO ? In fact if you put it like this then even haskell itself is not required, i could just write it in java. Initializing a global variable outside of the function is ugly and wrong. You are spilling the guts all over the place. My first implementation had this MVar defined in one module, initialized in another and used in third. That breaks all encapsulation laws. And i value my encapsulation more that idiotic superstitions about UnsafePerformIO. Unsafe in that name really means "keep away from children". Engineers know how and when to use it. – Vagif Verdi Feb 28 '12 at 1:35
  • What you are asking for is impurity disguised as "modularity". Haskell requires you to pass these kinds of parameters around, either explicitly or through an implicit reader monad, in order to guarantee purity. The compiler trusts you when you say your code is pure, but if your code is not actually pure then the compiler becomes your enemy and you are forced to do things like NOINLINE and spend substantial time dealing with concurrency bugs from code that depends on your function being pure. – Gabriel Gonzalez Feb 28 '12 at 1:48
  • The procedure in question prints out batches of files. It is obviously as impure as it can be. I am not making it more impure that it already is :) But i am making it substantially simpler to use and hiding away low level implementation details. Besides i do not even have a global variable anymore (it is hidden in the closure) so some clueless newbie programmer will not be able to break it by using the global public variable for something else, or even worse, passing to printJob function another MVar. Architecture matters. – Vagif Verdi Feb 28 '12 at 1:56

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