{-# OPTIONS -fno-warn-unused-imports #-} module Data.Time.LocalTime.Internal.TimeOfDay ( -- * Time of day TimeOfDay(..),midnight,midday,makeTimeOfDayValid, timeToDaysAndTimeOfDay,daysAndTimeOfDayToTime, utcToLocalTimeOfDay,localToUTCTimeOfDay, timeToTimeOfDay,timeOfDayToTime, dayFractionToTimeOfDay,timeOfDayToDayFraction ) where import Control.DeepSeq import Data.Typeable import Data.Fixed import Data.Data import Data.Time.Clock.Internal.DiffTime import Data.Time.Clock.Internal.NominalDiffTime import Data.Time.Calendar.Private import Data.Time.LocalTime.Internal.TimeZone -- | Time of day as represented in hour, minute and second (with picoseconds), typically used to express local time of day. data TimeOfDay = TimeOfDay { -- | range 0 - 23 todHour :: Int, -- | range 0 - 59 todMin :: Int, -- | Note that 0 <= 'todSec' < 61, accomodating leap seconds. -- Any local minute may have a leap second, since leap seconds happen in all zones simultaneously todSec :: Pico } deriving (Eq,Ord,Data, Typeable) instance NFData TimeOfDay where rnf (TimeOfDay h m s) = rnf h `seq` rnf m `seq` s `seq` () -- FIXME: Data.Fixed had no NFData instances yet at time of writing -- | Hour zero midnight :: TimeOfDay midnight = TimeOfDay 0 0 0 -- | Hour twelve midday :: TimeOfDay midday = TimeOfDay 12 0 0 instance Show TimeOfDay where show (TimeOfDay h m s) = (show2 h) ++ ":" ++ (show2 m) ++ ":" ++ (show2Fixed s) makeTimeOfDayValid :: Int -> Int -> Pico -> Maybe TimeOfDay makeTimeOfDayValid h m s = do _ <- clipValid 0 23 h _ <- clipValid 0 59 m _ <- clipValid 0 60.999999999999 s return (TimeOfDay h m s) -- | Convert a period of time into a count of days and a time of day since midnight. -- The time of day will never have a leap second. timeToDaysAndTimeOfDay :: NominalDiffTime -> (Integer,TimeOfDay) timeToDaysAndTimeOfDay dt = let s = realToFrac dt (m,ms) = divMod' s 60 (h,hm) = divMod' m 60 (d,dh) = divMod' h 24 in (d,TimeOfDay dh hm ms) -- | Convert a count of days and a time of day since midnight into a period of time. daysAndTimeOfDayToTime :: Integer -> TimeOfDay -> NominalDiffTime daysAndTimeOfDayToTime d (TimeOfDay dh hm ms) = (+) (realToFrac ms) $ (*) 60 $ (+) (realToFrac hm) $ (*) 60 $ (+) (realToFrac dh) $ (*) 24 $ realToFrac d -- | Convert a time of day in UTC to a time of day in some timezone, together with a day adjustment. 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) -- | Convert a time of day in some timezone to a time of day in UTC, together with a day adjustment. localToUTCTimeOfDay :: TimeZone -> TimeOfDay -> (Integer,TimeOfDay) localToUTCTimeOfDay zone = utcToLocalTimeOfDay (minutesToTimeZone (negate (timeZoneMinutes zone))) posixDayLength :: DiffTime posixDayLength = fromInteger 86400 -- | Get the time of day given a time since midnight. -- Time more than 24h will be converted to leap-seconds. 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 -- | Get the time since midnight for a given time of day. timeOfDayToTime :: TimeOfDay -> DiffTime timeOfDayToTime (TimeOfDay h m s) = ((fromIntegral h) * 60 + (fromIntegral m)) * 60 + (realToFrac s) -- | Get the time of day given the fraction of a day since midnight. dayFractionToTimeOfDay :: Rational -> TimeOfDay dayFractionToTimeOfDay df = timeToTimeOfDay (realToFrac (df * 86400)) -- | Get the fraction of a day since midnight given a time of day. timeOfDayToDayFraction :: TimeOfDay -> Rational timeOfDayToDayFraction tod = realToFrac (timeOfDayToTime tod) / realToFrac posixDayLength