{-# LANGUAGE DeriveDataTypeable #-} -- | Extra functions for working with times. Unlike the other modules in this package, there is no -- corresponding @System.Time@ module. This module enhances the functionality -- from "Data.Time.Clock", but in quite different ways. -- -- Throughout, time is measured in 'Seconds', which is a type alias for 'Double'. module System.Time.Extra( Seconds, sleep, timeout, subtractTime, showDuration, offsetTime, offsetTimeIncrease, duration ) where import Control.Concurrent import Data.Time.Clock import Numeric.Extra import Data.IORef import Control.Monad.Extra import Control.Exception.Extra import Data.Typeable import Data.Unique -- | A type alias for seconds, which are stored as 'Double'. type Seconds = Double -- | Sleep for a number of seconds. -- -- > fmap (round . fst) (duration $ sleep 1) == return 1 sleep :: Seconds -> IO () sleep = loopM $ \s -> -- important to handle both overflow and underflow vs Int if s < 0 then return $ Right () else if s > 2000 then do threadDelay 2000000000 -- 2000 * 1e6 return $ Left $ s - 2000 else do threadDelay $ ceiling $ s * 1000000 return $ Right () -- An internal type that is thrown as a dynamic exception to -- interrupt the running IO computation when the timeout has -- expired. newtype Timeout = Timeout Unique deriving (Eq,Typeable) instance Show Timeout where show _ = "<>" instance Exception Timeout -- | A version of 'System.Timeout.timeout' that takes 'Seconds' and never -- overflows the bounds of an 'Int'. In addition, the bug that negative -- timeouts run for ever has been fixed. -- -- > timeout (-3) (print 1) == return Nothing -- > timeout 0.1 (print 1) == fmap Just (print 1) -- > timeout 0.1 (sleep 2 >> print 1) == return Nothing -- > do (t, _) <- duration $ timeout 0.1 $ sleep 1000; return $ t < 1 timeout :: Seconds -> IO a -> IO (Maybe a) -- Copied from GHC with a few tweaks. timeout n f | n <= 0 = return Nothing | otherwise = do pid <- myThreadId ex <- fmap Timeout newUnique handleBool (== ex) (const $ return Nothing) (bracket (forkIOWithUnmask $ \unmask -> unmask $ sleep n >> throwTo pid ex) (killThread) (\_ -> fmap Just f)) -- | Calculate the difference between two times in seconds. -- Usually the first time will be the end of an event, and the -- second time will be the beginning. -- -- > \a b -> a > b ==> subtractTime a b > 0 subtractTime :: UTCTime -> UTCTime -> Seconds subtractTime end start = fromRational $ toRational $ end `diffUTCTime` start -- | Show a number of seconds, typically a duration, in a suitable manner with -- responable precision for a human. -- -- > showDuration 3.435 == "3.44s" -- > showDuration 623.8 == "10m24s" -- > showDuration 62003.8 == "17h13m" -- > showDuration 1e8 == "27777h47m" showDuration :: Seconds -> String showDuration x | x >= 3600 = f (x / 60) "h" "m" | x >= 60 = f x "m" "s" | otherwise = showDP 2 x ++ "s" where f x m s = show ms ++ m ++ ['0' | ss < 10] ++ show ss ++ s where (ms,ss) = round x `divMod` 60 -- | Call once to start, then call repeatedly to get the elapsed time since the first -- call. Values will usually increase, unless the system clock is updated -- (if you need the guarantee, see 'offsetTimeIncrease'). offsetTime :: IO (IO Seconds) offsetTime = do start <- getCurrentTime return $ do end <- getCurrentTime return $ end `subtractTime` start -- | Like 'offsetTime', but results will never decrease (though they may stay the same). -- -- > do f <- offsetTimeIncrease; xs <- replicateM 10 f; return $ xs == sort xs offsetTimeIncrease :: IO (IO Seconds) offsetTimeIncrease = do t <- offsetTime ref <- newIORef 0 return $ do t <- t atomicModifyIORef ref $ \o -> let m = max t o in m `seq` (m, m) -- | Record how long a computation takes in 'Seconds'. duration :: IO a -> IO (Seconds, a) duration act = do time <- offsetTime res <- act time <- time return (time, res)