module Data.Time.LocalTime.TimeOfDay
(
TimeOfDay(..),midnight,midday,
utcToLocalTimeOfDay,localToUTCTimeOfDay,
timeToTimeOfDay,timeOfDayToTime,
dayFractionToTimeOfDay,timeOfDayToDayFraction
) where
import Data.Time.LocalTime.TimeZone
import Data.Time.Calendar.Private
import Data.Time.Clock
import Data.Fixed
data TimeOfDay = TimeOfDay {
todHour :: Int,
todMin :: Int,
todSec :: Pico
} deriving (Eq,Ord)
midnight :: TimeOfDay
midnight = TimeOfDay 0 0 0
midday :: TimeOfDay
midday = TimeOfDay 12 0 0
instance Show TimeOfDay where
show (TimeOfDay h m s) = (show2 h) ++ ":" ++ (show2 m) ++ ":" ++ (show2Fixed s)
utcToLocalTimeOfDay :: TimeZone -> TimeOfDay -> (Integer,TimeOfDay)
utcToLocalTimeOfDay zone (TimeOfDay h m s) = (fromIntegral (div h' 24),TimeOfDay (mod h' 24) (mod m' 60) s) where
m' = m + timeZoneMinutes zone
h' = h + (div m' 60)
localToUTCTimeOfDay :: TimeZone -> TimeOfDay -> (Integer,TimeOfDay)
localToUTCTimeOfDay zone = utcToLocalTimeOfDay (minutesToTimeZone (negate (timeZoneMinutes zone)))
posixDayLength :: DiffTime
posixDayLength = fromInteger 86400
timeToTimeOfDay :: DiffTime -> TimeOfDay
timeToTimeOfDay dt | dt >= posixDayLength = TimeOfDay 23 59 (60 + (realToFrac (dt posixDayLength)))
timeToTimeOfDay dt = TimeOfDay (fromInteger h) (fromInteger m) s where
s' = realToFrac dt
s = mod' s' 60
m' = div' s' 60
m = mod' m' 60
h = div' m' 60
timeOfDayToTime :: TimeOfDay -> DiffTime
timeOfDayToTime (TimeOfDay h m s) = ((fromIntegral h) * 60 + (fromIntegral m)) * 60 + (realToFrac s)
dayFractionToTimeOfDay :: Rational -> TimeOfDay
dayFractionToTimeOfDay df = timeToTimeOfDay (realToFrac (df * 86400))
timeOfDayToDayFraction :: TimeOfDay -> Rational
timeOfDayToDayFraction tod = realToFrac (timeOfDayToTime tod / posixDayLength)