#if __GLASGOW_HASKELL__ >= 702
{-# LANGUAGE Trustworthy #-}
#endif
{-# OPTIONS -fno-warn-unused-imports #-}
#include "HsConfigure.h"
module Data.Time.Clock.Scale
(
UniversalTime(..),
DiffTime,
secondsToDiffTime,
picosecondsToDiffTime,
diffTimeToPicoseconds,
) where
import Control.DeepSeq
import Data.Ratio ((%))
import Data.Fixed
import Data.Typeable
#if LANGUAGE_Rank2Types
import Data.Data
#endif
newtype UniversalTime = ModJulianDate {getModJulianDate :: Rational} deriving (Eq,Ord
#if LANGUAGE_DeriveDataTypeable
#if LANGUAGE_Rank2Types
,Data, Typeable
#endif
#endif
)
instance NFData UniversalTime where
rnf (ModJulianDate a) = rnf a
newtype DiffTime = MkDiffTime Pico deriving (Eq,Ord
#if LANGUAGE_DeriveDataTypeable
#if LANGUAGE_Rank2Types
#if HAS_DataPico
,Data, Typeable
#else
#endif
#endif
#endif
)
instance NFData DiffTime where
rnf dt = seq dt ()
instance Enum DiffTime where
succ (MkDiffTime a) = MkDiffTime (succ a)
pred (MkDiffTime a) = MkDiffTime (pred a)
toEnum = MkDiffTime . toEnum
fromEnum (MkDiffTime a) = fromEnum a
enumFrom (MkDiffTime a) = fmap MkDiffTime (enumFrom a)
enumFromThen (MkDiffTime a) (MkDiffTime b) = fmap MkDiffTime (enumFromThen a b)
enumFromTo (MkDiffTime a) (MkDiffTime b) = fmap MkDiffTime (enumFromTo a b)
enumFromThenTo (MkDiffTime a) (MkDiffTime b) (MkDiffTime c) = fmap MkDiffTime (enumFromThenTo a b c)
instance Show DiffTime where
show (MkDiffTime t) = (showFixed True t) ++ "s"
instance Num DiffTime where
(MkDiffTime a) + (MkDiffTime b) = MkDiffTime (a + b)
(MkDiffTime a) - (MkDiffTime b) = MkDiffTime (a - b)
(MkDiffTime a) * (MkDiffTime b) = MkDiffTime (a * b)
negate (MkDiffTime a) = MkDiffTime (negate a)
abs (MkDiffTime a) = MkDiffTime (abs a)
signum (MkDiffTime a) = MkDiffTime (signum a)
fromInteger i = MkDiffTime (fromInteger i)
instance Real DiffTime where
toRational (MkDiffTime a) = toRational a
instance Fractional DiffTime where
(MkDiffTime a) / (MkDiffTime b) = MkDiffTime (a / b)
recip (MkDiffTime a) = MkDiffTime (recip a)
fromRational r = MkDiffTime (fromRational r)
instance RealFrac DiffTime where
properFraction (MkDiffTime a) = let (b',a') = properFraction a in (b',MkDiffTime a')
truncate (MkDiffTime a) = truncate a
round (MkDiffTime a) = round a
ceiling (MkDiffTime a) = ceiling a
floor (MkDiffTime a) = floor a
secondsToDiffTime :: Integer -> DiffTime
secondsToDiffTime = fromInteger
picosecondsToDiffTime :: Integer -> DiffTime
picosecondsToDiffTime x = MkDiffTime (MkFixed x)
diffTimeToPicoseconds :: DiffTime -> Integer
diffTimeToPicoseconds (MkDiffTime (MkFixed x)) = x
{-# RULES
"realToFrac/DiffTime->Pico" realToFrac = \ (MkDiffTime ps) -> ps
"realToFrac/Pico->DiffTime" realToFrac = MkDiffTime
#-}