I asked this question on the ghc-users mailing list and got some helpful responses, but still don't understand what is happening in this code.
Essentially I am trying to understand how I can catch the exception BlockedIndefinitelyOnMVar to restore a lock that may have not been returned, and to understand this exception in general.
Here is some single-threaded code that does just that:
-- This raises the exception only once and the lock is successfully restored: main1 = do lock <- newMVar () lockPrint "good1" lock takeMVar lock putStrLn "main: took lock but didn't return it!" -- exception is raised and lock is restored here: lockPrint "good2" lock -- no exception raised: lockPrint "good3" lock readMVar lock putStrLn "great success" lockPrint :: String -> MVar () -> IO () lockPrint name v = takePrint `finally` put where put = putMVar v () >> putStrLn (name++": replaced lock") takePrint = do e <- try $ takeMVar v :: IO (Either BlockedIndefinitelyOnMVar ()) let printExc = putStrLn . ((name++": ")++) . show printSuccess = const $ putStrLn (name++": success") either printExc printSuccess e
And here is the version of main that exhibits the behavior I don't understand. In particular I'm not quite sure why the exception is being raised in main, although I see that the threads aren't really being scheduled as I imagine.
main0 = do lock <- newMVar () forkIO $ lockPrint "good1" lock threadDelay 100000 takeMVar lock putStrLn "main: took lock but didn't return it!" -- raises blocked indefinitely exception forkIO $ lockPrint "good2" lock -- this should raise no exception if we were successful above: putStrLn "main: long pause..." threadDelay 2000000 readMVar lock putStrLn "great success"
I'm sorry I'm having trouble coming up with a simpler example. The above was compiled with:
ghc --make -threaded -fforce-recomp experiments.hs
EDIT: Edward Z. Yang wrote a really lucid blog post on this today here. The upshot being that this exception can't really be relied on for doing anything fancy.