Com/Simatime/Go.hs


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-- based on
-- https://stackoverflow.com/questions/4522387/how-can-i-emulate-gos-channels-with-haskell
-- but this version encodes end-of-stream on the communication channel, as a Nothing

module Com.Simatime.Go
  ( chan
  , readCh
  , (-<-)
  , writeCh
  , (->-)
  , go
  )
where

import           Control.Concurrent             ( forkIO
                                                , ThreadId
                                                , threadDelay
                                                )
import           Control.Concurrent.STM.TChan   ( newTChan
                                                , readTChan
                                                , writeTChan
                                                , isEmptyTChan
                                                , TChan
                                                )
import           Control.Monad                  ( forM_ )
import           GHC.Conc                       ( atomically )

-- | Make a new channel.
chan :: _
chan = atomically . newTChan

-- | Take from a channel.
readCh :: TChan a -> IO a
readCh = atomically . readTChan

-- | Alias for 'readCh'.
--
-- >>> c <- chan
-- >>> writeCh c "val"
-- >>> -<- c
-- "val"
--
-- I don't think this looks terrible with do-notation:
--
-- >>> c <- chan
-- >>> writeCh c "val"
-- >>> result <- -<- c
-- >>> print result
-- "val"
(-<-) :: TChan a -> IO a
(-<-) = readCh

-- | Write to a channel.
writeCh :: TChan a -> a -> IO ()
writeCh ch v = atomically $ writeTChan ch v

-- | Alias for 'writeCh', but flipped to make it read better.
--
-- >>> c <- chan
-- >>> "val" ->- c
-- >>> readCh c
-- "val"
(->-) :: TChan a -> a -> IO ()
(->-) = flip writeCh

-- | Starts a background process.
go :: IO () -> IO ThreadId
go = forkIO


{- Example: (TODO: move to module-level docs)

-- can I just implement forM/Traversable over the channel?
forRange :: TChan (Maybe a) -> (a -> IO b) -> IO [b]
forRange ch fn = helper fn [] where
  -- helper :: (a -> IO b) -> [b] -> IO [b]
  helper fn acc = do
    jv <- readCh ch
    case jv of
      Nothing -> return $ reverse acc
      Just v  -> do
        b <- fn v
        helper fn (b : acc)

feedData :: (Num a, Enum a) => TChan (Maybe a) -> IO ()
feedData ch = do
  forM_ [1 .. 9999] (\x -> writeCh ch (Just x))
  writeQ ch Nothing -- EOF value

printData :: TChan (Maybe Int) -> IO ()
printData c = do
  forRange c (print :: Int -> IO ())
  return ()

main :: IO ()
main = do
  ch <- chan
  go $ feedData ch
  printData ch
-}