module Data.Number.MPFR.Comparison where
import Data.Number.MPFR.Internal
import Prelude hiding (isNaN, exponent, isInfinite)
import Data.Maybe
cmp :: MPFR -> MPFR -> Maybe Ordering
cmp mp1@(MP _ s e _) mp2@(MP _ s' e' _)
| e > expInf && e' > expInf =
case (s /= s', e /= e') of
(True, _) -> Just $ compare (signum s) (signum s')
(_, True) -> Just $ compare (fromIntegral s * e) (fromIntegral s * e')
(False, False) -> Just (compare (withMPFRBB mp1 mp2 mpfr_cmp) 0)
| isNaN mp1 || isNaN mp2 = Nothing
| isZero mp1 = Just $ if isZero mp2
then EQ
else toEnum . (+ 1) . negate . fromIntegral . signum $ s'
| isZero mp2 = Just . toEnum . (+ 1) . fromIntegral $ signum s
| isInfinite mp1 = Just .compare s $ if isInfinite mp2 then s' else 0
| isInfinite mp2 = Just $ compare 0 s'
cmpw :: MPFR -> Word -> Maybe Ordering
cmpw mp1 w = if isNaN mp1 then Nothing else Just (compare (unsafePerformIO go) 0)
where go = with mp1 $ \p -> mpfr_cmp_ui p (fromIntegral w)
cmpi :: MPFR -> Int -> Maybe Ordering
cmpi mp1 i = if isNaN mp1 then Nothing else Just (compare (unsafePerformIO go) 0)
where go = with mp1 $ \p -> mpfr_cmp_si p (fromIntegral i)
cmpd :: MPFR -> Double -> Maybe Ordering
cmpd mp1 d = unsafePerformIO go
where go = do mpfr_clear_erangeflag
with mp1 $ \p -> do
r1 <- mpfr_cmp_d p (realToFrac d)
r2 <- mpfr_erangeflag_p
if r2 == 0 then return (Just (compare r1 0))
else do mpfr_clear_erangeflag
return Nothing
cmp2w :: MPFR -> Word -> Exp -> Maybe Ordering
cmp2w d w e = unsafePerformIO go
where go = do mpfr_clear_erangeflag
with d $ \p -> do
r1 <- mpfr_cmp_ui_2exp p (fromIntegral w) e
r2 <- mpfr_erangeflag_p
if r2 == 0 then return (Just (compare r1 0))
else do mpfr_clear_erangeflag
return Nothing
cmp2i :: MPFR -> Int -> Exp -> Maybe Ordering
cmp2i d w e = unsafePerformIO go
where go = do mpfr_clear_erangeflag
with d $ \p -> do
r1 <- mpfr_cmp_si_2exp p (fromIntegral w) e
r2 <- mpfr_erangeflag_p
if r2 == 0 then return (Just (compare r1 0))
else do mpfr_clear_erangeflag
return Nothing
cmpabs :: MPFR -> MPFR -> Maybe Ordering
cmpabs mp1 mp2 = if isNaN mp1 || isNaN mp2 then Nothing
else Just (compare (withMPFRBB mp1 mp2 mpfr_cmpabs) 0)
isNaN :: MPFR -> Bool
isNaN (MP _ _ e _) = e == expNaN
isInfinite :: MPFR -> Bool
isInfinite (MP _ _ e _) = e == expInf
isNumber :: MPFR -> Bool
isNumber d = withMPFRB d mpfr_number_p /= 0
isZero :: MPFR -> Bool
isZero (MP _ _ e _) = e == expZero
sgn :: MPFR -> Maybe Int
sgn mp1@(MP _ s _ _) | isZero mp1 = Just 0
| isNaN mp1 = Nothing
| otherwise = Just $ fromIntegral $ signum s
greater :: MPFR -> MPFR -> Bool
greater d1 = maybe False (== GT) . cmp d1
greatereq :: MPFR -> MPFR -> Bool
greatereq d1 = maybe False (/= LT) . cmp d1
less :: MPFR -> MPFR -> Bool
less d1 = maybe False (== LT) . cmp d1
lesseq :: MPFR -> MPFR -> Bool
lesseq d1 = maybe False (/= GT) . cmp d1
lessgreater :: MPFR -> MPFR -> Maybe Bool
lessgreater d1 d2 = if isNaN d1 || isNaN d2 then Nothing
else Just (withMPFRBB d1 d2 mpfr_lessgreater_p /= 0)
equal :: MPFR -> MPFR -> Bool
equal d1 = maybe False (== EQ) . cmp d1
unordered :: MPFR -> MPFR -> Maybe Bool
unordered d1 d2 = if isNaN d1 || isNaN d2 then Nothing
else Just (withMPFRBB d1 d2 mpfr_unordered_p /= 0)
instance Eq MPFR where
(==) = equal
instance Ord MPFR where
compare d = fromMaybe GT . cmp d
(<) = less
(<=) = lesseq
(>) = greater
(>=) = greatereq