{-# OPTIONS -fno-warn-orphans #-}
module Data.Time.Clock.TAI
(
module Data.Time.Clock.Internal.AbsoluteTime,
LeapSecondMap,
utcDayLength,utcToTAITime,taiToUTCTime,
taiClock,
) where
import Data.Time.Clock.Internal.AbsoluteTime
import Data.Time.LocalTime
import Data.Time.Calendar.Days
import Data.Time.Clock.Internal.SystemTime
import Data.Time.Clock.System
import Data.Time.Clock
import Data.Maybe
import Data.Fixed
instance Show AbsoluteTime where
show t = show (utcToLocalTime utc (fromJust (taiToUTCTime (const (Just 0)) t))) ++ " TAI"
type LeapSecondMap = Day -> Maybe Int
utcDayLength :: LeapSecondMap -> Day -> Maybe DiffTime
utcDayLength lsmap day = do
i0 <- lsmap day
i1 <- lsmap $ addDays 1 day
return $ realToFrac (86400 + i1 - i0)
dayStart :: LeapSecondMap -> Day -> Maybe AbsoluteTime
dayStart lsmap day = do
i <- lsmap day
return $ addAbsoluteTime (realToFrac $ (toModifiedJulianDay day) * 86400 + toInteger i) taiEpoch
utcToTAITime :: LeapSecondMap -> UTCTime -> Maybe AbsoluteTime
utcToTAITime lsmap (UTCTime day dtime) = do
t <- dayStart lsmap day
return $ addAbsoluteTime dtime t
taiToUTCTime :: LeapSecondMap -> AbsoluteTime -> Maybe UTCTime
taiToUTCTime lsmap abstime = let
stable day = do
dayt <- dayStart lsmap day
len <- utcDayLength lsmap day
let
dtime = diffAbsoluteTime abstime dayt
day' = addDays (div' dtime len) day
if day == day' then return (UTCTime day dtime) else stable day'
in stable $ ModifiedJulianDay $ div' (diffAbsoluteTime abstime taiEpoch) 86400
taiClock :: Maybe (DiffTime,IO AbsoluteTime)
taiClock = fmap (fmap (fmap systemToTAITime)) getTAISystemTime