1 {-# GHC_PRAGMA INTERFACE VERSION 5 #-}
2 interface LibTime where
3 import PreludeIOError(IOError13)
4 import PreludeMonadicIO(Either)
5 data CalendarTime = CalendarTime Int Int Int Int Int Int Integer Int Int [Char] Int Bool
6 data ClockTime {-# GHC_PRAGMA TOD Integer Integer #-}
7 data TimeDiff = TimeDiff Int Int Int Int Int Int Integer
8 addToClockTime :: TimeDiff -> ClockTime -> ClockTime
9 {-# GHC_PRAGMA _A_ 2 _U_ 00 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 2 XX 2 \ (u0 :: TimeDiff) (u1 :: ClockTime) -> _APP_ _TYAPP_ error { ClockTime } [ _NOREP_S_ "addToClockTime unimplemented" ] _N_ #-}
10 diffClockTimes :: ClockTime -> ClockTime -> TimeDiff
11 {-# GHC_PRAGMA _A_ 2 _U_ 00 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 2 XX 2 \ (u0 :: ClockTime) (u1 :: ClockTime) -> _APP_ _TYAPP_ error { TimeDiff } [ _NOREP_S_ "diffClockTimes unimplemented" ] _N_ #-}
12 getClockTime :: _State _RealWorld -> (Either IOError13 ClockTime, _State _RealWorld)
13 {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "U(P)" {_A_ 1 _U_ 2 _N_ _N_ _N_ _N_} _N_ _N_ #-}
14 toCalendarTime :: ClockTime -> CalendarTime
15 {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "U(U(PPP)L)" {_A_ 4 _U_ 0222 _N_ _N_ _N_ _N_} _N_ _N_ #-}
16 toClockTime :: CalendarTime -> ClockTime
17 {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "U(U(P)U(P)U(P)U(P)U(P)U(P)U(PPP)AAAU(P)A)" _N_ _N_ #-}
18 toUTCTime :: ClockTime -> CalendarTime
19 {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "U(U(PPP)L)" {_A_ 4 _U_ 0222 _N_ _N_ _N_ _N_} _N_ _N_ #-}
21 {-# GHC_PRAGMA _M_ LibTime {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(ClockTime -> ClockTime -> Bool), (ClockTime -> ClockTime -> Bool)] [_CONSTM_ Eq (==) (ClockTime), _CONSTM_ Eq (/=) (ClockTime)] _N_
22 (==) = _A_ 2 _U_ 11 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22211 _N_ _N_ _F_ _IF_ARGS_ 0 5 XXXCC 9 \ (u0 :: Int#) (u1 :: Int#) (u2 :: ByteArray#) (u3 :: Integer) (u4 :: ClockTime) -> case u4 of { _ALG_ _ORIG_ LibTime TOD (u5 :: Integer) (u6 :: Integer) -> case u5 of { _ALG_ J# (u7 :: Int#) (u8 :: Int#) (u9 :: ByteArray#) -> case _#_ cmpInteger# [] [u0, u1, u2, u7, u8, u9] of { _PRIM_ 0# -> case u3 of { _ALG_ J# (ua :: Int#) (ub :: Int#) (uc :: ByteArray#) -> case u6 of { _ALG_ J# (ud :: Int#) (ue :: Int#) (uf :: ByteArray#) -> case _#_ cmpInteger# [] [ua, ub, uc, ud, ue, uf] of { _PRIM_ 0# -> _!_ True [] []; (ug :: Int#) -> _!_ False [] [] }; _NO_DEFLT_ }; _NO_DEFLT_ }; (uh :: Int#) -> _!_ False [] [] }; _NO_DEFLT_ }; _NO_DEFLT_ } _N_} _N_ _N_,
23 (/=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22211 _N_ _N_ _N_ _N_} _N_ _N_ #-}
25 {-# GHC_PRAGMA _M_ LibTime {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(TimeDiff -> TimeDiff -> Bool), (TimeDiff -> TimeDiff -> Bool)] [_CONSTM_ Eq (==) (TimeDiff), _CONSTM_ Eq (/=) (TimeDiff)] _N_
26 (==) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_,
27 (/=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_ #-}
28 instance Ord ClockTime
29 {-# GHC_PRAGMA _M_ LibTime {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq ClockTime}}, (ClockTime -> ClockTime -> Bool), (ClockTime -> ClockTime -> Bool), (ClockTime -> ClockTime -> Bool), (ClockTime -> ClockTime -> Bool), (ClockTime -> ClockTime -> ClockTime), (ClockTime -> ClockTime -> ClockTime), (ClockTime -> ClockTime -> _CMP_TAG)] [_DFUN_ Eq (ClockTime), _CONSTM_ Ord (<) (ClockTime), _CONSTM_ Ord (<=) (ClockTime), _CONSTM_ Ord (>=) (ClockTime), _CONSTM_ Ord (>) (ClockTime), _CONSTM_ Ord max (ClockTime), _CONSTM_ Ord min (ClockTime), _CONSTM_ Ord _tagCmp (ClockTime)] _N_
30 (<) = _A_ 2 _U_ 11 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22211 _N_ _N_ _N_ _N_} _N_ _N_,
31 (<=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22211 _N_ _N_ _N_ _N_} _N_ _N_,
32 (>=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22211 _N_ _N_ _N_ _N_} _N_ _N_,
33 (>) = _A_ 2 _U_ 11 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22211 _N_ _N_ _N_ _N_} _N_ _N_,
34 max = _A_ 2 _U_ 12 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22222 _N_ _N_ _N_ _N_} _N_ _N_,
35 min = _A_ 2 _U_ 12 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22222 _N_ _N_ _N_ _N_} _N_ _N_,
36 _tagCmp = _A_ 2 _U_ 11 _N_ _S_ "U(U(PPP)L)U(U(PPP)L)" {_A_ 5 _U_ 22211 _N_ _N_ _N_ _N_} _N_ _N_ #-}
38 {-# GHC_PRAGMA _M_ LibTime {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq TimeDiff}}, (TimeDiff -> TimeDiff -> Bool), (TimeDiff -> TimeDiff -> Bool), (TimeDiff -> TimeDiff -> Bool), (TimeDiff -> TimeDiff -> Bool), (TimeDiff -> TimeDiff -> TimeDiff), (TimeDiff -> TimeDiff -> TimeDiff), (TimeDiff -> TimeDiff -> _CMP_TAG)] [_DFUN_ Eq (TimeDiff), _CONSTM_ Ord (<) (TimeDiff), _CONSTM_ Ord (<=) (TimeDiff), _CONSTM_ Ord (>=) (TimeDiff), _CONSTM_ Ord (>) (TimeDiff), _CONSTM_ Ord max (TimeDiff), _CONSTM_ Ord min (TimeDiff), _CONSTM_ Ord _tagCmp (TimeDiff)] _N_
39 (<) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_,
40 (<=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_,
41 (>=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_,
42 (>) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_,
43 max = _A_ 2 _U_ 22 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_,
44 min = _A_ 2 _U_ 22 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_,
45 _tagCmp = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)LLLLLL)U(U(P)LLLLLL)" _N_ _N_ #-}
46 instance Text ClockTime
47 {-# GHC_PRAGMA _M_ LibTime {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 5 _!_ _TUP_4 [(Int -> [Char] -> [(ClockTime, [Char])]), (Int -> ClockTime -> [Char] -> [Char]), ([Char] -> [([ClockTime], [Char])]), ([ClockTime] -> [Char] -> [Char])] [_CONSTM_ Text readsPrec (ClockTime), _CONSTM_ Text showsPrec (ClockTime), _CONSTM_ Text readList (ClockTime), _CONSTM_ Text showList (ClockTime)] _N_
48 readsPrec = _A_ 2 _U_ 22 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 2 XX 4 \ (u0 :: Int) (u1 :: [Char]) -> _APP_ _TYAPP_ patError# { (Int -> [Char] -> [(ClockTime, [Char])]) } [ _NOREP_S_ "%DPreludeCore.Text.readsPrec\"", u0, u1 ] _N_,
49 showsPrec = _A_ 2 _U_ 012 _N_ _S_ "AU(U(PPP)A)" {_A_ 3 _U_ 0222 _N_ _N_ _N_ _N_} _N_ _N_,
50 readList = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_,
51 showList = _A_ 0 _U_ 12 _N_ _N_ _N_ _N_ #-}
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