I am currently running a unknown number of workers producing an unknown number of results which are put into an MVar and printed if the new result is better then the previous. This happens in the
printMaxResult function shown below.
main = do startTime <- getCurrentTime -- Read problem numbers <- parseList target <- parseTargetNumber -- Create mvar to communicate mvar <- newEmptyMVar -- Start solving the actual problem -- The solve methods will write their results -- into the given mvar forkIO $ SimpleAdd.solve (Problem target numbers) mvar forkIO $ IncrementDecrement.solve (Problem target numbers) mvar incOps decOps -- Read the first result and use it to go into the "main loop" expr <- takeMVar mvar debugPrintExpr expr startTime printMaxResult mvar expr startTime return () -- Extracts a new result from the given mvar and compares -- it with the previous result. If the new result has a -- better score it remembers it and prints it. printMaxResult :: MVar Expr -> Expr -> UTCTime -> IO () printMaxResult mvar expr startTime = do newExpr <- takeMVar mvar if score newExpr > score expr then do debugPrintExpr newExpr startTime printMaxResult mvar newExpr startTime else printMaxResult mvar expr startTime
Problem is, that once all threads are finished the program crashes with the following exception:
main: thread blocked indefinitely in an MVar operation. Of course that message is correct: There is no way that MVar will receive some new input anytime.
But how would I handle this condition gracefully? I would be fine with handling that exception and do "exit(0)" sort of operation. I tried to understand how exception handling works in Haskell but I cant really wrap my mind around it.