[project @ 1996-01-08 20:28:12 by partain]

[ghc-hetmet.git] / ghc / lib / hbc / Number_mg.hi

{-# GHC_PRAGMA INTERFACE VERSION 5 #-}
interface Number where
data Number     {-# GHC_PRAGMA I Integer | F Double #-}
isInteger :: Number -> Bool
        {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-}
instance Enum Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 6 _!_ _TUP_5 [{{Ord Number}}, (Number -> [Number]), (Number -> Number -> [Number]), (Number -> Number -> [Number]), (Number -> Number -> Number -> [Number])] [_DFUN_ Ord (Number), _CONSTM_ Enum enumFrom (Number), _CONSTM_ Enum enumFromThen (Number), _CONSTM_ Enum enumFromTo (Number), _CONSTM_ Enum enumFromThenTo (Number)] _N_
         enumFrom = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         enumFromThen = _A_ 2 _U_ 22 _N_ _S_ "SL" _N_ _N_,
         enumFromTo = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_,
         enumFromThenTo = _A_ 3 _U_ 222 _N_ _N_ _N_ _N_ #-}
instance Eq Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(Number -> Number -> Bool), (Number -> Number -> Bool)] [_CONSTM_ Eq (==) (Number), _CONSTM_ Eq (/=) (Number)] _N_
         (==) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_,
         (/=) = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-}
instance Floating Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 20 _!_ _TUP_19 [{{Fractional Number}}, Number, (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number -> Number), (Number -> Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number)] [_DFUN_ Fractional (Number), _CONSTM_ Floating pi (Number), _CONSTM_ Floating exp (Number), _CONSTM_ Floating log (Number), _CONSTM_ Floating sqrt (Number), _CONSTM_ Floating (**) (Number), _CONSTM_ Floating logBase (Number), _CONSTM_ Floating sin (Number), _CONSTM_ Floating cos (Number), _CONSTM_ Floating tan (Number), _CONSTM_ Floating asin (Number), _CONSTM_ Floating acos (Number), _CONSTM_ Floating atan (Number), _CONSTM_ Floating sinh (Number), _CONSTM_ Floating cosh (Number), _CONSTM_ Floating tanh (Number), _CONSTM_ Floating asinh (Number), _CONSTM_ Floating acosh (Number), _CONSTM_ Floating atanh (Number)] _N_
         pi = _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 2 _!_ _ORIG_ Number F [] [_CONSTM_ Floating pi (Double)] _N_,
         exp = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         log = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         sqrt = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         (**) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_,
         logBase = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_,
         sin = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         cos = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         tan = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         asin = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         acos = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         atan = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         sinh = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         cosh = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         tanh = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         asinh = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         acosh = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         atanh = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-}
instance Fractional Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 5 _!_ _TUP_4 [{{Num Number}}, (Number -> Number -> Number), (Number -> Number), (Ratio Integer -> Number)] [_DFUN_ Num (Number), _CONSTM_ Fractional (/) (Number), _CONSTM_ Fractional recip (Number), _CONSTM_ Fractional fromRational (Number)] _N_
         (/) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_,
         recip = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_,
         fromRational = _A_ 1 _U_ 1 _N_ _S_ "U(LU(PPP))" {_A_ 4 _U_ 2222 _N_ _N_ _N_ _N_} _N_ _N_ #-}
instance Integral Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 13 _!_ _TUP_12 [{{Real Number}}, {{Ix Number}}, (Number -> Number -> Number), (Number -> Number -> Number), (Number -> Number -> Number), (Number -> Number -> Number), (Number -> Number -> (Number, Number)), (Number -> Number -> (Number, Number)), (Number -> Bool), (Number -> Bool), (Number -> Integer), (Number -> Int)] [_DFUN_ Real (Number), _DFUN_ Ix (Number), _CONSTM_ Integral quot (Number), _CONSTM_ Integral rem (Number), _CONSTM_ Integral div (Number), _CONSTM_ Integral mod (Number), _CONSTM_ Integral quotRem (Number), _CONSTM_ Integral divMod (Number), _CONSTM_ Integral even (Number), _CONSTM_ Integral odd (Number), _CONSTM_ Integral toInteger (Number), _CONSTM_ Integral toInt (Number)] _N_
         quot = _A_ 2 _U_ 22 _N_ _S_ "SL" _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Number) (u1 :: Number) -> case _APP_  _CONSTM_ Integral quotRem (Number) [ u0, u1 ] of { _ALG_ _TUP_2 (u2 :: Number) (u3 :: Number) -> u2; _NO_DEFLT_ } _N_,
         rem = _A_ 2 _U_ 22 _N_ _S_ "SL" _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Number) (u1 :: Number) -> case _APP_  _CONSTM_ Integral quotRem (Number) [ u0, u1 ] of { _ALG_ _TUP_2 (u2 :: Number) (u3 :: Number) -> u3; _NO_DEFLT_ } _N_,
         div = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_,
         mod = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_,
         quotRem = _A_ 2 _U_ 22 _N_ _S_ "SL" _N_ _N_,
         divMod = _A_ 0 _U_ 22 _N_ _N_ _N_ _N_,
         even = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_,
         odd = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_,
         toInteger = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         toInt = _A_ 1 _U_ 2 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 1 X 3 \ (u0 :: Number) -> _APP_  _TYAPP_  patError# { (Number -> Int) } [ _NOREP_S_ "%DPreludeCore.Integral.toInt\"", u0 ] _N_ #-}
instance Ix Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 5 _!_ _TUP_4 [{{Ord Number}}, ((Number, Number) -> [Number]), ((Number, Number) -> Number -> Int), ((Number, Number) -> Number -> Bool)] [_DFUN_ Ord (Number), _CONSTM_ Ix range (Number), _CONSTM_ Ix index (Number), _CONSTM_ Ix inRange (Number)] _N_
         range = _A_ 1 _U_ 1 _N_ _S_ "U(LL)" {_A_ 2 _U_ 11 _N_ _N_ _N_ _N_} _N_ _N_,
         index = _A_ 2 _U_ 11 _N_ _S_ "U(SA)S" {_A_ 2 _U_ 11 _N_ _N_ _N_ _N_} _N_ _N_,
         inRange = _A_ 2 _U_ 12 _N_ _S_ "U(SL)S" {_A_ 3 _U_ 112 _N_ _N_ _N_ _N_} _N_ _N_ #-}
instance Num Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 11 _!_ _TUP_10 [{{Eq Number}}, {{Text Number}}, (Number -> Number -> Number), (Number -> Number -> Number), (Number -> Number -> Number), (Number -> Number), (Number -> Number), (Number -> Number), (Integer -> Number), (Int -> Number)] [_DFUN_ Eq (Number), _DFUN_ Text (Number), _CONSTM_ Num (+) (Number), _CONSTM_ Num (-) (Number), _CONSTM_ Num (*) (Number), _CONSTM_ Num negate (Number), _CONSTM_ Num abs (Number), _CONSTM_ Num signum (Number), _CONSTM_ Num fromInteger (Number), _CONSTM_ Num fromInt (Number)] _N_
         (+) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_,
         (-) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_,
         (*) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_,
         negate = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         abs = _A_ 1 _U_ 2 _N_ _S_ "S" _N_ _N_,
         signum = _A_ 1 _U_ 2 _N_ _S_ "S" _N_ _N_,
         fromInteger = _A_ 1 _U_ 2 _N_ _N_ _F_ _IF_ARGS_ 0 1 X 2 \ (u0 :: Integer) -> _!_ _ORIG_ Number I [] [u0] _N_,
         fromInt = _A_ 1 _U_ 1 _N_ _N_ _F_ _IF_ARGS_ 0 1 C 5 \ (u0 :: Int) -> let {(u2 :: Integer) = case u0 of { _ALG_ I# (u1 :: Int#) -> _#_ int2Integer# [] [u1]; _NO_DEFLT_ }} in _!_ _ORIG_ Number I [] [u2] _N_ #-}
instance Ord Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq Number}}, (Number -> Number -> Bool), (Number -> Number -> Bool), (Number -> Number -> Bool), (Number -> Number -> Bool), (Number -> Number -> Number), (Number -> Number -> Number), (Number -> Number -> _CMP_TAG)] [_DFUN_ Eq (Number), _CONSTM_ Ord (<) (Number), _CONSTM_ Ord (<=) (Number), _CONSTM_ Ord (>=) (Number), _CONSTM_ Ord (>) (Number), _CONSTM_ Ord max (Number), _CONSTM_ Ord min (Number), _CONSTM_ Ord _tagCmp (Number)] _N_
         (<) = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_,
         (<=) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_,
         (>=) = _A_ 2 _U_ 22 _N_ _S_ "SS" _F_ _IF_ARGS_ 0 2 XX 3 \ (u0 :: Number) (u1 :: Number) -> _APP_  _CONSTM_ Ord (<=) (Number) [ u1, u0 ] _N_,
         (>) = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_,
         max = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_,
         min = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_,
         _tagCmp = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-}
instance Real Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 4 _!_ _TUP_3 [{{Num Number}}, {{Enum Number}}, (Number -> Ratio Integer)] [_DFUN_ Num (Number), _DFUN_ Enum (Number), _CONSTM_ Real toRational (Number)] _N_
         toRational = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-}
instance RealFloat Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 11 _!_ _TUP_10 [{{RealFrac Number}}, {{Floating Number}}, (Number -> Integer), (Number -> Int), (Number -> (Int, Int)), (Number -> (Integer, Int)), (Integer -> Int -> Number), (Number -> Int), (Number -> Number), (Int -> Number -> Number)] [_DFUN_ RealFrac (Number), _DFUN_ Floating (Number), _CONSTM_ RealFloat floatRadix (Number), _CONSTM_ RealFloat floatDigits (Number), _CONSTM_ RealFloat floatRange (Number), _CONSTM_ RealFloat decodeFloat (Number), _CONSTM_ RealFloat encodeFloat (Number), _CONSTM_ RealFloat exponent (Number), _CONSTM_ RealFloat significand (Number), _CONSTM_ RealFloat scaleFloat (Number)] _N_
         floatRadix = _A_ 1 _U_ 0 _N_ _S_ "A" {_A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _#_ int2Integer# [] [2#] _N_} _F_ _IF_ARGS_ 0 1 X 1 \ (u0 :: Number) -> _#_ int2Integer# [] [2#] _N_,
         floatDigits = _A_ 1 _U_ 0 _N_ _S_ "A" {_A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 2 _!_ I# [] [53#] _N_} _F_ _IF_ARGS_ 0 1 X 2 \ (u0 :: Number) -> _!_ I# [] [53#] _N_,
         floatRange = _A_ 1 _U_ 0 _N_ _S_ "A" {_A_ 0 _N_ _N_ _N_ _N_ _N_} _N_ _N_,
         decodeFloat = _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_,
         encodeFloat = _A_ 2 _U_ 11 _N_ _S_ "U(PPP)U(P)" {_A_ 4 _U_ 2222 _N_ _N_ _N_ _N_} _N_ _N_,
         exponent = _A_ 1 _U_ 1 _N_ _N_ _N_ _N_,
         significand = _A_ 1 _U_ 1 _N_ _N_ _N_ _N_,
         scaleFloat = _A_ 2 _U_ 21 _N_ _N_ _N_ _N_ #-}
instance RealFrac Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 8 _!_ _TUP_7 [{{Real Number}}, {{Fractional Number}}, _forall_ a$z1 =>{{Integral a$z1}} -> (Number -> (a$z1, Number)), _forall_ a$z1 =>{{Integral a$z1}} -> (Number -> a$z1), _forall_ a$z1 =>{{Integral a$z1}} -> (Number -> a$z1), _forall_ a$z1 =>{{Integral a$z1}} -> (Number -> a$z1), _forall_ a$z1 =>{{Integral a$z1}} -> (Number -> a$z1)] [_DFUN_ Real (Number), _DFUN_ Fractional (Number), _CONSTM_ RealFrac properFraction (Number), _CONSTM_ RealFrac truncate (Number), _CONSTM_ RealFrac round (Number), _CONSTM_ RealFrac ceiling (Number), _CONSTM_ RealFrac floor (Number)] _N_
         properFraction = _A_ 1 _U_ 21 _N_ _N_ _N_ _N_,
         truncate = _A_ 1 _U_ 21 _N_ _N_ _N_ _N_,
         round = _A_ 1 _U_ 21 _N_ _N_ _N_ _N_,
         ceiling = _A_ 1 _U_ 21 _N_ _N_ _N_ _N_,
         floor = _A_ 1 _U_ 21 _N_ _N_ _N_ _N_ #-}
instance Text Number
        {-# GHC_PRAGMA _M_ Number {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 5 _!_ _TUP_4 [(Int -> [Char] -> [(Number, [Char])]), (Int -> Number -> [Char] -> [Char]), ([Char] -> [([Number], [Char])]), ([Number] -> [Char] -> [Char])] [_CONSTM_ Text readsPrec (Number), _CONSTM_ Text showsPrec (Number), _CONSTM_ Text readList (Number), _CONSTM_ Text showList (Number)] _N_
         readsPrec = _A_ 2 _U_ 02 _N_ _S_ "AL" {_A_ 1 _U_ 2 _N_ _N_ _N_ _N_} _N_ _N_,
         showsPrec = _A_ 2 _U_ 212 _N_ _S_ "LS" _N_ _N_,
         readList = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_,
         showList = _A_ 0 _U_ 12 _N_ _N_ _N_ _N_ #-}