I'm toying with Haskell threads, and I'm running into the problem of communicating lazily-evaluated values across a channel. For example, with N worker threads and 1 output thread, the workers communicate unevaluated work and the output thread ends up doing the work for them.
I've read about this problem in various documentation and seen various solutions, but I only found one solution that works and the rest do not. Below is some code in which worker threads start some computation that can take a long time. I start the threads in descending order, so that the first thread should take the longest, and the later threads should finish earlier.
import Control.Concurrent (forkIO) import Control.Concurrent.Chan -- .Strict import Control.Concurrent.MVar import Control.Exception (finally, evaluate) import Control.Monad (forM_) import Control.Parallel.Strategies (using, rdeepseq) main = (>>=) newChan $ (>>=) (newMVar ) . run run :: Chan (Maybe String) -> MVar [MVar ()] -> IO () run logCh statVars = do logV <- spawn1 readWriteLoop say "START" forM_ [18,17..10] $ spawn . busyWork await writeChan logCh Nothing -- poison the logger takeMVar logV putStrLn "DONE" where say mesg = force mesg >>= writeChan logCh . Just force s = mapM evaluate s -- works -- force s = return $ s `using` rdeepseq -- no difference -- force s = return s -- no-op; try this with strict channel busyWork = say . show . sum . filter odd . enumFromTo 2 . embiggen embiggen i = i*i*i*i*i readWriteLoop = readChan logCh >>= writeReadLoop writeReadLoop Nothing = return () writeReadLoop (Just mesg) = putStrLn mesg >> readWriteLoop spawn1 action = do v <- newEmptyMVar forkIO $ action `finally` putMVar v () return v spawn action = do v <- spawn1 action modifyMVar statVars $ \vs -> return (v:vs, ()) await = do vs <- modifyMVar statVars $ \vs -> return (, vs) mapM_ takeMVar vs
Using most techniques, the results are reported in the order spawned; that is, the longest-running computation first. I interpret this to mean that the output thread is doing all the work:
-- results in order spawned (longest-running first = broken) START 892616806655 503999185040 274877906943 144162977343 72313663743 34464808608 15479341055 6484436675 2499999999 DONE
I thought the answer to this would be strict channels, but they didn't work. I understand that WHNF for strings is insufficient because that would just force the outermost constructor (nil or cons for the first character of the string). The
rdeepseq is supposed to fully evaluate, but it makes no difference. The only thing I've found that works is to map
Control.Exception.evaluate :: a -> IO a over all the characters in the string. (See the
force function comments in the code for several different alternatives.) Here's the result with
-- results in order finished (shortest-running first = correct) START 2499999999 6484436675 15479341055 34464808608 72313663743 144162977343 274877906943 503999185040 892616806655 DONE
So why don't strict channels or
rdeepseq produce this result? Are there other techniques? Am I misinterpreting why the first result is broken?