module Data.Time.Clock.UTC
(
UTCTime(..),NominalDiffTime
) where
import Data.Time.Calendar.Days
import Data.Time.Clock.Scale
import Data.Fixed
data UTCTime = UTCTime {
utctDay :: Day,
utctDayTime :: DiffTime
}
instance Eq UTCTime where
(UTCTime da ta) == (UTCTime db tb) = (da == db) && (ta == tb)
instance Ord UTCTime where
compare (UTCTime da ta) (UTCTime db tb) = case (compare da db) of
EQ -> compare ta tb
cmp -> cmp
newtype NominalDiffTime = MkNominalDiffTime Pico deriving (Eq,Ord)
instance Enum NominalDiffTime where
succ (MkNominalDiffTime a) = MkNominalDiffTime (succ a)
pred (MkNominalDiffTime a) = MkNominalDiffTime (pred a)
toEnum = MkNominalDiffTime . toEnum
fromEnum (MkNominalDiffTime a) = fromEnum a
enumFrom (MkNominalDiffTime a) = fmap MkNominalDiffTime (enumFrom a)
enumFromThen (MkNominalDiffTime a) (MkNominalDiffTime b) = fmap MkNominalDiffTime (enumFromThen a b)
enumFromTo (MkNominalDiffTime a) (MkNominalDiffTime b) = fmap MkNominalDiffTime (enumFromTo a b)
enumFromThenTo (MkNominalDiffTime a) (MkNominalDiffTime b) (MkNominalDiffTime c) = fmap MkNominalDiffTime (enumFromThenTo a b c)
instance Show NominalDiffTime where
show (MkNominalDiffTime t) = (showFixed True t) ++ "s"
instance Num NominalDiffTime where
(MkNominalDiffTime a) + (MkNominalDiffTime b) = MkNominalDiffTime (a + b)
(MkNominalDiffTime a) (MkNominalDiffTime b) = MkNominalDiffTime (a b)
(MkNominalDiffTime a) * (MkNominalDiffTime b) = MkNominalDiffTime (a * b)
negate (MkNominalDiffTime a) = MkNominalDiffTime (negate a)
abs (MkNominalDiffTime a) = MkNominalDiffTime (abs a)
signum (MkNominalDiffTime a) = MkNominalDiffTime (signum a)
fromInteger i = MkNominalDiffTime (fromInteger i)
instance Real NominalDiffTime where
toRational (MkNominalDiffTime a) = toRational a
instance Fractional NominalDiffTime where
(MkNominalDiffTime a) / (MkNominalDiffTime b) = MkNominalDiffTime (a / b)
recip (MkNominalDiffTime a) = MkNominalDiffTime (recip a)
fromRational r = MkNominalDiffTime (fromRational r)
instance RealFrac NominalDiffTime where
properFraction (MkNominalDiffTime a) = (i,MkNominalDiffTime f) where
(i,f) = properFraction a
truncate (MkNominalDiffTime a) = truncate a
round (MkNominalDiffTime a) = round a
ceiling (MkNominalDiffTime a) = ceiling a
floor (MkNominalDiffTime a) = floor a