#ifdef LANGUAGE_DeriveDataTypeable
#endif
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 706
#endif
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 702
#endif
module Data.Tagged
(
Tagged(..)
, retag
, untag
, tagSelf
, untagSelf
, asTaggedTypeOf
, witness
, proxy
, unproxy
, tagWith
) where
import Control.Applicative ((<$>), liftA2, Applicative(..))
import Control.Monad (liftM)
#if __GLASGOW_HASKELL__ >= 709
import Data.Bifunctor
#endif
import Data.Traversable (Traversable(..))
import Data.Foldable (Foldable(..))
#ifdef __GLASGOW_HASKELL__
import Data.Data
#endif
import Data.Ix (Ix(..))
import Data.Monoid
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ < 707
import Data.Proxy
#endif
newtype Tagged s b = Tagged { unTagged :: b } deriving
( Eq, Ord, Ix, Bounded
#if __GLASGOW_HASKELL__ >= 707
, Typeable
#endif
)
#ifdef __GLASGOW_HASKELL__
#if __GLASGOW_HASKELL__ < 707
instance Typeable2 Tagged where
typeOf2 _ = mkTyConApp taggedTyCon []
taggedTyCon :: TyCon
#if __GLASGOW_HASKELL__ < 704
taggedTyCon = mkTyCon "Data.Tagged.Tagged"
#else
taggedTyCon = mkTyCon3 "tagged" "Data.Tagged" "Tagged"
#endif
#endif
instance (Data s, Data b) => Data (Tagged s b) where
gfoldl f z (Tagged b) = z Tagged `f` b
toConstr _ = taggedConstr
gunfold k z c = case constrIndex c of
1 -> k (z Tagged)
_ -> error "gunfold"
dataTypeOf _ = taggedDataType
dataCast1 f = gcast1 f
dataCast2 f = gcast2 f
taggedConstr :: Constr
taggedConstr = mkConstr taggedDataType "Tagged" [] Prefix
taggedDataType :: DataType
taggedDataType = mkDataType "Data.Tagged.Tagged" [taggedConstr]
#endif
instance Show b => Show (Tagged s b) where
showsPrec n (Tagged b) = showParen (n > 10) $
showString "Tagged " .
showsPrec 11 b
instance Read b => Read (Tagged s b) where
readsPrec d = readParen (d > 10) $ \r ->
[(Tagged a, t) | ("Tagged", s) <- lex r, (a, t) <- readsPrec 11 s]
instance Monoid a => Monoid (Tagged s a) where
mempty = Tagged mempty
mappend (Tagged a) (Tagged b) = Tagged (mappend a b)
instance Functor (Tagged s) where
fmap f (Tagged x) = Tagged (f x)
#if __GLASGOW_HASKELL__ >= 709
instance Bifunctor Tagged where
bimap _ g (Tagged b) = Tagged (g b)
#endif
instance Applicative (Tagged s) where
pure = Tagged
Tagged f <*> Tagged x = Tagged (f x)
instance Monad (Tagged s) where
return = Tagged
Tagged m >>= k = k m
_ >> n = n
instance Foldable (Tagged s) where
foldMap f (Tagged x) = f x
fold (Tagged x) = x
foldr f z (Tagged x) = f x z
foldl f z (Tagged x) = f z x
foldl1 _ (Tagged x) = x
foldr1 _ (Tagged x) = x
instance Traversable (Tagged s) where
traverse f (Tagged x) = Tagged <$> f x
sequenceA (Tagged x) = Tagged <$> x
mapM f (Tagged x) = liftM Tagged (f x)
sequence (Tagged x) = liftM Tagged x
instance Enum a => Enum (Tagged s a) where
succ = fmap succ
pred = fmap pred
toEnum = Tagged . toEnum
fromEnum (Tagged x) = fromEnum x
enumFrom (Tagged x) = map Tagged (enumFrom x)
enumFromThen (Tagged x) (Tagged y) = map Tagged (enumFromThen x y)
enumFromTo (Tagged x) (Tagged y) = map Tagged (enumFromTo x y)
enumFromThenTo (Tagged x) (Tagged y) (Tagged z) =
map Tagged (enumFromThenTo x y z)
instance Num a => Num (Tagged s a) where
(+) = liftA2 (+)
() = liftA2 ()
(*) = liftA2 (*)
negate = fmap negate
abs = fmap abs
signum = fmap signum
fromInteger = Tagged . fromInteger
instance Real a => Real (Tagged s a) where
toRational (Tagged x) = toRational x
instance Integral a => Integral (Tagged s a) where
quot = liftA2 quot
rem = liftA2 rem
div = liftA2 div
mod = liftA2 mod
quotRem (Tagged x) (Tagged y) = (Tagged a, Tagged b) where
(a, b) = quotRem x y
divMod (Tagged x) (Tagged y) = (Tagged a, Tagged b) where
(a, b) = divMod x y
toInteger (Tagged x) = toInteger x
instance Fractional a => Fractional (Tagged s a) where
(/) = liftA2 (/)
recip = fmap recip
fromRational = Tagged . fromRational
instance Floating a => Floating (Tagged s a) where
pi = Tagged pi
exp = fmap exp
log = fmap log
sqrt = fmap sqrt
sin = fmap sin
cos = fmap cos
tan = fmap tan
asin = fmap asin
acos = fmap acos
atan = fmap atan
sinh = fmap sinh
cosh = fmap cosh
tanh = fmap tanh
asinh = fmap asinh
acosh = fmap acosh
atanh = fmap atanh
(**) = liftA2 (**)
logBase = liftA2 (**)
instance RealFrac a => RealFrac (Tagged s a) where
properFraction (Tagged x) = (a, Tagged b) where
(a, b) = properFraction x
truncate (Tagged x) = truncate x
round (Tagged x) = round x
ceiling (Tagged x) = ceiling x
floor (Tagged x) = floor x
instance RealFloat a => RealFloat (Tagged s a) where
floatRadix (Tagged x) = floatRadix x
floatDigits (Tagged x) = floatDigits x
floatRange (Tagged x) = floatRange x
decodeFloat (Tagged x) = decodeFloat x
encodeFloat m n = Tagged (encodeFloat m n)
exponent (Tagged x) = exponent x
significand = fmap significand
scaleFloat n = fmap (scaleFloat n)
isNaN (Tagged x) = isNaN x
isInfinite (Tagged x) = isInfinite x
isDenormalized (Tagged x) = isDenormalized x
isNegativeZero (Tagged x) = isNegativeZero x
isIEEE (Tagged x) = isIEEE x
atan2 = liftA2 atan2
retag :: Tagged s b -> Tagged t b
retag = Tagged . unTagged
untag :: Tagged s b -> b
untag = unTagged
tagSelf :: a -> Tagged a a
tagSelf = Tagged
asTaggedTypeOf :: s -> tagged s b -> s
asTaggedTypeOf = const
witness :: Tagged a b -> a -> b
witness (Tagged b) _ = b
untagSelf :: Tagged a a -> a
untagSelf (Tagged x) = x
proxy :: Tagged s a -> proxy s -> a
proxy (Tagged x) _ = x
unproxy :: (Proxy s -> a) -> Tagged s a
unproxy f = Tagged (f Proxy)
tagWith :: proxy s -> a -> Tagged s a
tagWith _ = Tagged