{-# LANGUAGE DeriveDataTypeable #-}
-- |
-- Module      : Data.Hourglass.Diff
-- License     : BSD-style
-- Maintainer  : Vincent Hanquez <vincent@snarc.org>
-- Stability   : experimental
-- Portability : unknown
--
-- time arithmetic methods
--
module Data.Hourglass.Diff
    ( Duration(..)
    , Period(..)
    , durationNormalize
    , durationFlatten
    , elapsedTimeAddSeconds
    , elapsedTimeAddSecondsP
    , dateAddPeriod
    ) where

import Data.Data
import Data.Monoid
import Data.Hourglass.Types
import Data.Hourglass.Calendar
import Control.DeepSeq

-- | An amount of conceptual calendar time in terms of years, months and days.
--
-- This allow calendar manipulation, representing things like days and months
-- irrespective on how long those are related to timezone and daylight changes.
--
-- See 'Duration' for the time-based equivalent to this class.
data Period = Period
    { periodYears  :: !Int
    , periodMonths :: !Int
    , periodDays   :: !Int
    } deriving (Read,Eq,Ord,Data,Typeable)

instance NFData Period where
    rnf (Period y m d) = y `seq` m `seq` d `seq` ()
instance Monoid Period where
    mempty = Period 0 0 0
    mappend (Period y1 m1 d1) (Period y2 m2 d2) =
        Period (y1+y2) (m1+m2) (d1+d2)

-- | An amount of time in terms of constant value like hours (3600 seconds),
-- minutes (60 seconds), seconds and nanoseconds.
data Duration = Duration
    { durationHours   :: !Hours       -- ^ number of hours
    , durationMinutes :: !Minutes     -- ^ number of minutes
    , durationSeconds :: !Seconds     -- ^ number of seconds
    , durationNs      :: !NanoSeconds -- ^ number of nanoseconds
    } deriving (Read,Eq,Ord,Data,Typeable)

instance NFData Duration where
    rnf (Duration h m s ns) = h `seq` m `seq` s `seq` ns `seq` ()
instance Monoid Duration where
    mempty = Duration 0 0 0 0
    mappend (Duration h1 m1 s1 ns1) (Duration h2 m2 s2 ns2) =
        Duration (h1+h2) (m1+m2) (s1+s2) (ns1+ns2)
instance TimeInterval Duration where
    fromSeconds s = (durationNormalize (Duration 0 0 s 0), 0)
    toSeconds d   = fst $ durationFlatten d

durationFlatten :: Duration -> (Seconds, NanoSeconds)
durationFlatten (Duration h m s (NanoSeconds ns)) =
    (toSeconds h + toSeconds m + s + Seconds sacc, NanoSeconds ns')
  where (sacc, ns') = ns `divMod` 1000000000

-- | Normalize all fields to represent the same value
-- with the biggest units possible.
--
-- For example, 62 minutes is normalized as 1h 2minutes
durationNormalize :: Duration -> Duration
durationNormalize (Duration (Hours h) (Minutes mi) (Seconds s) (NanoSeconds ns)) =
    Duration (Hours (h+hacc)) (Minutes mi') (Seconds s') (NanoSeconds ns')
  where (hacc, mi') = (mi+miacc) `divMod` 60
        (miacc, s') = (s+sacc) `divMod` 60
        (sacc, ns') = ns `divMod` 1000000000

-- | add a period of time to a date
dateAddPeriod :: Date -> Period -> Date
dateAddPeriod (Date yOrig mOrig dOrig) (Period yDiff mDiff dDiff) =
    loop (yOrig + yDiff + yDiffAcc) mStartPos (dOrig+dDiff)
  where
    (yDiffAcc,mStartPos) = (fromEnum mOrig + mDiff) `divMod` 12
    loop y m d
        | d < dMonth = Date y (toEnum m) d
        | otherwise  =
            let newDiff = d - dMonth
             in if m == 12
                    then loop (y+1) 0 newDiff
                    else loop y (m+1) newDiff
      where dMonth = daysInMonth y (toEnum m)

-- | Add a number of seconds to an Elapsed type
elapsedTimeAddSeconds :: Elapsed -> Seconds -> Elapsed
elapsedTimeAddSeconds (Elapsed s1) s2 = Elapsed (s1+s2)

-- | Add a number of seconds to an ElapsedP type
elapsedTimeAddSecondsP :: ElapsedP -> Seconds -> ElapsedP
elapsedTimeAddSecondsP (ElapsedP (Elapsed s1) ns1) s2 =
    ElapsedP (Elapsed (s1+s2)) ns1

{- disabled for warning purpose. to be implemented

-- | Duration string to time diff
--
-- <http://en.wikipedia.org/wiki/ISO_8601#Durations>
--
-- * P is the duration designator (historically called "period") placed at the start of the duration representation.
--
-- * Y is the year designator that follows the value for the number of years.
--
-- * M is the month designator that follows the value for the number of months.
--
-- * W is the week designator that follows the value for the number of weeks.
--
-- * D is the day designator that follows the value for the number of days.
--
-- * T is the time designator that precedes the time components of the representation.
--
-- * H is the hour designator that follows the value for the number of hours.
--
-- * M is the minute designator that follows the value for the number of minutes.
--
-- * S is the second designator that follows the value for the number of seconds.
--
timeDiffFromDuration :: String -> TimeDiff
timeDiffFromDuration _ = undefined

timeDiffFromString :: String -> (

-- | Human description string to time diff
--
-- examples:
--
-- * "1 day"
--
-- * "2 months, 5 days and 1 second"
--
timeDiffFromDescription :: String -> TimeDiff
timeDiffFromDescription _ = undefined
-}