{- scheduled activities
 - 
 - Copyright 2013-2014 Joey Hess <id@joeyh.name>
 -
 - License: BSD-2-clause
 -}

module Utility.Scheduled (
	Schedule(..),
	Recurrance(..),
	ScheduledTime(..),
	NextTime(..),
	WeekDay,
	MonthDay,
	YearDay,
	nextTime,
	calcNextTime,
	startTime,
	fromSchedule,
	fromScheduledTime,
	toScheduledTime,
	fromRecurrance,
	toRecurrance,
	toSchedule,
	parseSchedule,
	prop_past_sane,
) where

import Utility.Data
import Utility.PartialPrelude
import Utility.Misc
import Utility.Tuple
import Utility.Split

import Data.List
import Data.Time.Clock
import Data.Time.LocalTime
import Data.Time.Calendar
import Data.Time.Calendar.WeekDate
import Data.Time.Calendar.OrdinalDate
import Data.Time.Format ()
import Data.Char
import Control.Applicative
import Prelude

{- Some sort of scheduled event. -}
data Schedule = Schedule Recurrance ScheduledTime
	deriving (Eq, Read, Show, Ord)

data Recurrance
	= Daily
	| Weekly (Maybe WeekDay)
	| Monthly (Maybe MonthDay)
	| Yearly (Maybe YearDay)
	| Divisible Int Recurrance
	-- ^ Days, Weeks, or Months of the year evenly divisible by a number.
	-- (Divisible Year is years evenly divisible by a number.)
	deriving (Eq, Read, Show, Ord)

type WeekDay = Int
type MonthDay = Int
type YearDay = Int

data ScheduledTime
	= AnyTime
	| SpecificTime Hour Minute
	deriving (Eq, Read, Show, Ord)

type Hour = Int
type Minute = Int

-- | Next time a Schedule should take effect. The NextTimeWindow is used
-- when a Schedule is allowed to start at some point within the window.
data NextTime
	= NextTimeExactly LocalTime
	| NextTimeWindow LocalTime LocalTime
	deriving (Eq, Read, Show)

startTime :: NextTime -> LocalTime
startTime (NextTimeExactly t) = t
startTime (NextTimeWindow t _) = t

nextTime :: Schedule -> Maybe LocalTime -> IO (Maybe NextTime)
nextTime schedule lasttime = do
	now <- getCurrentTime
	tz <- getTimeZone now
	return $ calcNextTime schedule lasttime $ utcToLocalTime tz now

-- | Calculate the next time that fits a Schedule, based on the
-- last time it occurred, and the current time.
calcNextTime :: Schedule -> Maybe LocalTime -> LocalTime -> Maybe NextTime
calcNextTime schedule@(Schedule recurrance scheduledtime) lasttime currenttime
	| scheduledtime == AnyTime = do
		next <- findfromtoday True
		return $ case next of
			NextTimeWindow _ _ -> next
			NextTimeExactly t -> window (localDay t) (localDay t)
	| otherwise = NextTimeExactly . startTime <$> findfromtoday False
  where
	findfromtoday anytime = findfrom recurrance afterday today
	  where
		today = localDay currenttime
		afterday = sameaslastrun || toolatetoday
		toolatetoday = not anytime && localTimeOfDay currenttime >= nexttime
		sameaslastrun = lastrun == Just today
	lastrun = localDay <$> lasttime
	nexttime = case scheduledtime of
		AnyTime -> TimeOfDay 0 0 0
		SpecificTime h m -> TimeOfDay h m 0
	exactly d = NextTimeExactly $ LocalTime d nexttime
	window startd endd = NextTimeWindow
		(LocalTime startd nexttime)
		(LocalTime endd (TimeOfDay 23 59 0))
	findfrom r afterday candidate
		| ynum candidate > (ynum (localDay currenttime)) + 100 =
			-- avoid possible infinite recusion
			error $ "bug: calcNextTime did not find a time within 100 years to run " ++
			show (schedule, lasttime, currenttime)
		| otherwise = findfromChecked r afterday candidate
	findfromChecked r afterday candidate = case r of
		Daily
			| afterday -> Just $ exactly $ addDays 1 candidate
			| otherwise -> Just $ exactly candidate
		Weekly Nothing
			| afterday -> skip 1
			| otherwise -> case (wday <$> lastrun, wday candidate) of
				(Nothing, _) -> Just $ window candidate (addDays 6 candidate)
				(Just old, curr)
					| old == curr -> Just $ window candidate (addDays 6 candidate)
					| otherwise -> skip 1
		Monthly Nothing
			| afterday -> skip 1
			| maybe True (candidate `oneMonthPast`) lastrun ->
				Just $ window candidate (endOfMonth candidate)
			| otherwise -> skip 1
		Yearly Nothing
			| afterday -> skip 1
			| maybe True (candidate `oneYearPast`) lastrun ->
				Just $ window candidate (endOfYear candidate)
			| otherwise -> skip 1
		Weekly (Just w)
			| w < 0 || w > maxwday -> Nothing
			| w == wday candidate -> if afterday
				then Just $ exactly $ addDays 7 candidate
				else Just $ exactly candidate
			| otherwise -> Just $ exactly $
				addDays (fromIntegral $ (w - wday candidate) `mod` 7) candidate
		Monthly (Just m)
			| m < 0 || m > maxmday -> Nothing
			-- TODO can be done more efficiently than recursing
			| m == mday candidate -> if afterday
				then skip 1
				else Just $ exactly candidate
			| otherwise -> skip 1
		Yearly (Just y)
			| y < 0 || y > maxyday -> Nothing
			| y == yday candidate -> if afterday
				then skip 365
				else Just $ exactly candidate
			| otherwise -> skip 1
		Divisible n r'@Daily -> handlediv n r' yday (Just maxyday)
		Divisible n r'@(Weekly _) -> handlediv n r' wnum (Just maxwnum)
		Divisible n r'@(Monthly _) -> handlediv n r' mnum (Just maxmnum)
		Divisible n r'@(Yearly _) -> handlediv n r' ynum Nothing
		Divisible _ r'@(Divisible _ _) -> findfrom r' afterday candidate
	  where
		skip n = findfrom r False (addDays n candidate)
		handlediv n r' getval mmax
			| n > 0 && maybe True (n <=) mmax =
				findfromwhere r' (divisible n . getval) afterday candidate
			| otherwise = Nothing
	findfromwhere r p afterday candidate
		| maybe True (p . getday) next = next
		| otherwise = maybe Nothing (findfromwhere r p True . getday) next
	  where
		next = findfrom r afterday candidate
		getday = localDay . startTime
	divisible n v = v `rem` n == 0

-- Check if the new Day occurs one month or more past the old Day.
oneMonthPast :: Day -> Day -> Bool
new `oneMonthPast` old = fromGregorian y (m+1) d <= new
  where
	(y,m,d) = toGregorian old

-- Check if the new Day occurs one year or more past the old Day.
oneYearPast :: Day -> Day -> Bool
new `oneYearPast` old = fromGregorian (y+1) m d <= new
  where
	(y,m,d) = toGregorian old

endOfMonth :: Day -> Day
endOfMonth day =
	let (y,m,_d) = toGregorian day
	in fromGregorian y m (gregorianMonthLength y m)

endOfYear :: Day -> Day
endOfYear day =
	let (y,_m,_d) = toGregorian day
	in endOfMonth (fromGregorian y maxmnum 1)

-- extracting various quantities from a Day
wday :: Day -> Int
wday = thd3 . toWeekDate
wnum :: Day -> Int
wnum = snd3 . toWeekDate
mday :: Day -> Int
mday = thd3 . toGregorian
mnum :: Day -> Int
mnum = snd3 . toGregorian
yday :: Day -> Int
yday = snd . toOrdinalDate
ynum :: Day -> Int
ynum = fromIntegral . fst . toOrdinalDate

-- Calendar max values.
maxyday :: Int
maxyday = 366 -- with leap days
maxwnum :: Int
maxwnum = 53 -- some years have more than 52
maxmday :: Int
maxmday = 31
maxmnum :: Int
maxmnum = 12
maxwday :: Int
maxwday = 7

fromRecurrance :: Recurrance -> String
fromRecurrance (Divisible n r) =
	fromRecurrance' (++ "s divisible by " ++ show n) r
fromRecurrance r = fromRecurrance' ("every " ++) r

fromRecurrance' :: (String -> String) -> Recurrance -> String
fromRecurrance' a Daily = a "day"
fromRecurrance' a (Weekly n) = onday n (a "week")
fromRecurrance' a (Monthly n) = onday n (a "month")
fromRecurrance' a (Yearly n) = onday n (a "year")
fromRecurrance' a (Divisible _n r) = fromRecurrance' a r -- not used

onday :: Maybe Int -> String -> String
onday (Just n) s = "on day " ++ show n ++ " of " ++ s
onday Nothing s = s

toRecurrance :: String -> Maybe Recurrance
toRecurrance s = case words s of
	("every":"day":[]) -> Just Daily
	("on":"day":sd:"of":"every":something:[]) -> withday sd something
	("every":something:[]) -> noday something
	("days":"divisible":"by":sn:[]) -> 
		Divisible <$> getdivisor sn <*> pure Daily
	("on":"day":sd:"of":something:"divisible":"by":sn:[]) -> 
		Divisible
			<$> getdivisor sn
			<*> withday sd something
	("every":something:"divisible":"by":sn:[]) -> 
		Divisible
			<$> getdivisor sn
			<*> noday something
	(something:"divisible":"by":sn:[]) -> 
		Divisible
			<$> getdivisor sn
			<*> noday something
	_ -> Nothing
  where
	constructor "week" = Just Weekly
	constructor "month" = Just Monthly
	constructor "year" = Just Yearly
	constructor u
		| "s" `isSuffixOf` u = constructor $ dropFromEnd 1 u
		| otherwise = Nothing
	withday sd u = do
		c <- constructor u
		d <- readish sd
		Just $ c (Just d)
	noday u = do
		c <- constructor u
		Just $ c Nothing
	getdivisor sn = do
		n <- readish sn
		if n > 0
			then Just n
			else Nothing

fromScheduledTime :: ScheduledTime -> String
fromScheduledTime AnyTime = "any time"
fromScheduledTime (SpecificTime h m) = 
	show h' ++ (if m > 0 then ":" ++ pad 2 (show m) else "") ++ " " ++ ampm
  where
	pad n s = replicate (n - length s) '0' ++ s
	(h', ampm)
		| h == 0 = (12, "AM")
		| h < 12 = (h, "AM")
		| h == 12 = (h, "PM")
		| otherwise = (h - 12, "PM")

toScheduledTime :: String -> Maybe ScheduledTime
toScheduledTime "any time" = Just AnyTime
toScheduledTime v = case words v of
	(s:ampm:[])
		| map toUpper ampm == "AM" ->
			go s h0
		| map toUpper ampm == "PM" ->
			go s (\h -> (h0 h) + 12)
		| otherwise -> Nothing
	(s:[]) -> go s id
	_ -> Nothing
  where
	h0 h
		| h == 12 = 0
		| otherwise = h
	go :: String -> (Int -> Int) -> Maybe ScheduledTime
	go s adjust =
		let (h, m) = separate (== ':') s
		in SpecificTime
			<$> (adjust <$> readish h)
			<*> if null m then Just 0 else readish m

fromSchedule :: Schedule -> String
fromSchedule (Schedule recurrance scheduledtime) = unwords
	[ fromRecurrance recurrance
	, "at"
	, fromScheduledTime scheduledtime
	]

toSchedule :: String -> Maybe Schedule
toSchedule = eitherToMaybe . parseSchedule

parseSchedule :: String -> Either String Schedule
parseSchedule s = do
	r <- maybe (Left $ "bad recurrance: " ++ recurrance) Right
		(toRecurrance recurrance)
	t <- maybe (Left $ "bad time of day: " ++ scheduledtime) Right
		(toScheduledTime scheduledtime)
	Right $ Schedule r t
  where
	(rws, tws) = separate (== "at") (words s)
	recurrance = unwords rws
	scheduledtime = unwords tws

prop_past_sane :: Bool
prop_past_sane = and
	[ all (checksout oneMonthPast) (mplus1 ++ yplus1)
	, all (not . (checksout oneMonthPast)) (map swap (mplus1 ++ yplus1))
	, all (checksout oneYearPast) yplus1
	, all (not . (checksout oneYearPast)) (map swap yplus1)
	]
  where
	mplus1 =   -- new date               old date, 1+ months before it
		[ (fromGregorian 2014 01 15, fromGregorian 2013 12 15)
		, (fromGregorian 2014 01 15, fromGregorian 2013 02 15)
		, (fromGregorian 2014 02 15, fromGregorian 2013 01 15)
		, (fromGregorian 2014 03 01, fromGregorian 2013 01 15)
		, (fromGregorian 2014 03 01, fromGregorian 2013 12 15)
		, (fromGregorian 2015 01 01, fromGregorian 2010 01 01)
		]
	yplus1 =   -- new date               old date, 1+ years before it
		[ (fromGregorian 2014 01 15, fromGregorian 2012 01 16)
		, (fromGregorian 2014 01 15, fromGregorian 2013 01 14)
		, (fromGregorian 2022 12 31, fromGregorian 2000 01 01)
		]
	checksout cmp (new, old) = new `cmp` old
	swap (a,b) = (b,a)