{- thread scheduling
 -
 - Copyright 2012, 2013 Joey Hess <id@joeyh.name>
 - Copyright 2011 Bas van Dijk & Roel van Dijk
 -
 - License: BSD-2-clause
 -}

{-# LANGUAGE CPP #-}

module Utility.ThreadScheduler where

import Control.Monad
import Control.Concurrent
#ifndef mingw32_HOST_OS
import Control.Monad.IfElse
import System.Posix.IO
#endif
#ifndef mingw32_HOST_OS
import System.Posix.Signals
import System.Posix.Terminal
#endif

newtype Seconds = Seconds { fromSeconds :: Int }
        deriving (Eq, Ord, Show)

type Microseconds = Integer

{- Runs an action repeatedly forever, sleeping at least the specified number
 - of seconds in between. -}
runEvery :: Seconds -> IO a -> IO a
runEvery n a = forever $ do
        threadDelaySeconds n
        a

threadDelaySeconds :: Seconds -> IO ()
threadDelaySeconds (Seconds n) = unboundDelay (fromIntegral n * oneSecond)

{- Like threadDelay, but not bounded by an Int.
 -
 - There is no guarantee that the thread will be rescheduled promptly when the
 - delay has expired, but the thread will never continue to run earlier than
 - specified.
 - 
 - Taken from the unbounded-delay package to avoid a dependency for 4 lines
 - of code.
 -}
unboundDelay :: Microseconds -> IO ()
unboundDelay time = do
        let maxWait = min time $ toInteger (maxBound :: Int)
        threadDelay $ fromInteger maxWait
        when (maxWait /= time) $ unboundDelay (time - maxWait)

{- Pauses the main thread, letting children run until program termination. -}
waitForTermination :: IO ()
waitForTermination = do
#ifdef mingw32_HOST_OS
        forever $ threadDelaySeconds (Seconds 6000)
#else
        lock <- newEmptyMVar
        let check sig = void $
                installHandler sig (CatchOnce $ putMVar lock ()) Nothing
        check softwareTermination
        whenM (queryTerminal stdInput) $
                check keyboardSignal
        takeMVar lock
#endif

oneSecond :: Microseconds
oneSecond = 1000000