module Numeric.AD.Internal.Composition
( ComposeFunctor(..)
, ComposeMode(..)
, composeMode
, decomposeMode
) where
#ifndef MIN_VERSION_base
#define MIN_VERSION_base(x,y,z) 1
#endif
import Control.Applicative hiding ((<**>))
import Data.Data (Data(..), mkDataType, DataType, mkConstr, Constr, constrIndex, Fixity(..))
#if MIN_VERSION_base(4,4,0)
import Data.Typeable (Typeable1(..), Typeable(..), TyCon, mkTyCon3, mkTyConApp, typeOfDefault, gcast1)
#else
import Data.Typeable (Typeable1(..), Typeable(..), TyCon, mkTyCon, mkTyConApp, typeOfDefault, gcast1)
#endif
import Data.Foldable (Foldable(foldMap))
import Data.Traversable (Traversable(traverse))
import Numeric.AD.Internal.Classes
import Numeric.AD.Internal.Types
newtype ComposeFunctor f g a = ComposeFunctor { decomposeFunctor :: f (g a) }
instance (Functor f, Functor g) => Functor (ComposeFunctor f g) where
fmap f (ComposeFunctor a) = ComposeFunctor (fmap (fmap f) a)
instance (Foldable f, Foldable g) => Foldable (ComposeFunctor f g) where
foldMap f (ComposeFunctor a) = foldMap (foldMap f) a
instance (Traversable f, Traversable g) => Traversable (ComposeFunctor f g) where
traverse f (ComposeFunctor a) = ComposeFunctor <$> traverse (traverse f) a
instance (Typeable1 f, Typeable1 g) => Typeable1 (ComposeFunctor f g) where
typeOf1 tfga = mkTyConApp composeFunctorTyCon [typeOf1 (fa tfga), typeOf1 (ga tfga)]
where fa :: t f (g :: * -> *) a -> f a
fa = undefined
ga :: t (f :: * -> *) g a -> g a
ga = undefined
composeFunctorTyCon :: TyCon
#if MIN_VERSION_base(4,4,0)
composeFunctorTyCon = mkTyCon3 "ad" "Numeric.AD.Internal.Composition" "ComposeFunctor"
#else
composeFunctorTyCon = mkTyCon "Numeric.AD.Internal.Composition.ComposeFunctor"
#endif
composeFunctorConstr :: Constr
composeFunctorConstr = mkConstr composeFunctorDataType "ComposeFunctor" [] Prefix
composeFunctorDataType :: DataType
composeFunctorDataType = mkDataType "Numeric.AD.Internal.Composition.ComposeFunctor" [composeFunctorConstr]
instance (Typeable1 f, Typeable1 g, Data (f (g a)), Data a) => Data (ComposeFunctor f g a) where
gfoldl f z (ComposeFunctor a) = z ComposeFunctor `f` a
toConstr _ = composeFunctorConstr
gunfold k z c = case constrIndex c of
1 -> k (z ComposeFunctor)
_ -> error "gunfold"
dataTypeOf _ = composeFunctorDataType
dataCast1 f = gcast1 f
newtype ComposeMode f g a = ComposeMode { runComposeMode :: f (AD g a) }
composeMode :: AD f (AD g a) -> AD (ComposeMode f g) a
composeMode (AD a) = AD (ComposeMode a)
decomposeMode :: AD (ComposeMode f g) a -> AD f (AD g a)
decomposeMode (AD (ComposeMode a)) = AD a
instance (Primal f, Mode g, Primal g) => Primal (ComposeMode f g) where
primal = primal . primal . runComposeMode
instance (Mode f, Mode g) => Mode (ComposeMode f g) where
lift = ComposeMode . lift . lift
ComposeMode a <+> ComposeMode b = ComposeMode (a <+> b)
a *^ ComposeMode b = ComposeMode (lift a *^ b)
ComposeMode a ^* b = ComposeMode (a ^* lift b)
ComposeMode a ^/ b = ComposeMode (a ^/ lift b)
ComposeMode a <**> ComposeMode b = ComposeMode (a <**> b)
instance (Mode f, Mode g) => Lifted (ComposeMode f g) where
showsPrec1 n (ComposeMode a) = showsPrec1 n a
ComposeMode a ==! ComposeMode b = a ==! b
compare1 (ComposeMode a) (ComposeMode b) = compare1 a b
fromInteger1 = ComposeMode . lift . fromInteger1
ComposeMode a +! ComposeMode b = ComposeMode (a +! b)
ComposeMode a -! ComposeMode b = ComposeMode (a -! b)
ComposeMode a *! ComposeMode b = ComposeMode (a *! b)
negate1 (ComposeMode a) = ComposeMode (negate1 a)
abs1 (ComposeMode a) = ComposeMode (abs1 a)
signum1 (ComposeMode a) = ComposeMode (signum1 a)
ComposeMode a /! ComposeMode b = ComposeMode (a /! b)
recip1 (ComposeMode a) = ComposeMode (recip1 a)
fromRational1 = ComposeMode . lift . fromRational1
toRational1 (ComposeMode a) = toRational1 a
pi1 = ComposeMode pi1
exp1 (ComposeMode a) = ComposeMode (exp1 a)
log1 (ComposeMode a) = ComposeMode (log1 a)
sqrt1 (ComposeMode a) = ComposeMode (sqrt1 a)
ComposeMode a **! ComposeMode b = ComposeMode (a **! b)
logBase1 (ComposeMode a) (ComposeMode b) = ComposeMode (logBase1 a b)
sin1 (ComposeMode a) = ComposeMode (sin1 a)
cos1 (ComposeMode a) = ComposeMode (cos1 a)
tan1 (ComposeMode a) = ComposeMode (tan1 a)
asin1 (ComposeMode a) = ComposeMode (asin1 a)
acos1 (ComposeMode a) = ComposeMode (acos1 a)
atan1 (ComposeMode a) = ComposeMode (atan1 a)
sinh1 (ComposeMode a) = ComposeMode (sinh1 a)
cosh1 (ComposeMode a) = ComposeMode (cosh1 a)
tanh1 (ComposeMode a) = ComposeMode (tanh1 a)
asinh1 (ComposeMode a) = ComposeMode (asinh1 a)
acosh1 (ComposeMode a) = ComposeMode (acosh1 a)
atanh1 (ComposeMode a) = ComposeMode (atanh1 a)
properFraction1 (ComposeMode a) = (b, ComposeMode c) where
(b, c) = properFraction1 a
truncate1 (ComposeMode a) = truncate1 a
round1 (ComposeMode a) = round1 a
ceiling1 (ComposeMode a) = ceiling1 a
floor1 (ComposeMode a) = floor1 a
floatRadix1 (ComposeMode a) = floatRadix1 a
floatDigits1 (ComposeMode a) = floatDigits1 a
floatRange1 (ComposeMode a) = floatRange1 a
decodeFloat1 (ComposeMode a) = decodeFloat1 a
encodeFloat1 m e = ComposeMode (encodeFloat1 m e)
exponent1 (ComposeMode a) = exponent1 a
significand1 (ComposeMode a) = ComposeMode (significand1 a)
scaleFloat1 n (ComposeMode a) = ComposeMode (scaleFloat1 n a)
isNaN1 (ComposeMode a) = isNaN1 a
isInfinite1 (ComposeMode a) = isInfinite1 a
isDenormalized1 (ComposeMode a) = isDenormalized1 a
isNegativeZero1 (ComposeMode a) = isNegativeZero1 a
isIEEE1 (ComposeMode a) = isIEEE1 a
atan21 (ComposeMode a) (ComposeMode b) = ComposeMode (atan21 a b)
succ1 (ComposeMode a) = ComposeMode (succ1 a)
pred1 (ComposeMode a) = ComposeMode (pred1 a)
toEnum1 n = ComposeMode (toEnum1 n)
fromEnum1 (ComposeMode a) = fromEnum1 a
enumFrom1 (ComposeMode a) = map ComposeMode $ enumFrom1 a
enumFromThen1 (ComposeMode a) (ComposeMode b) = map ComposeMode $ enumFromThen1 a b
enumFromTo1 (ComposeMode a) (ComposeMode b) = map ComposeMode $ enumFromTo1 a b
enumFromThenTo1 (ComposeMode a) (ComposeMode b) (ComposeMode c) = map ComposeMode $ enumFromThenTo1 a b c
minBound1 = ComposeMode minBound1
maxBound1 = ComposeMode maxBound1
instance (Typeable1 f, Typeable1 g) => Typeable1 (ComposeMode f g) where
typeOf1 tfga = mkTyConApp composeModeTyCon [typeOf1 (fa tfga), typeOf1 (ga tfga)]
where fa :: t f (g :: * -> *) a -> f a
fa = undefined
ga :: t (f :: * -> *) g a -> g a
ga = undefined
instance (Typeable1 f, Typeable1 g, Typeable a) => Typeable (ComposeMode f g a) where
typeOf = typeOfDefault
composeModeTyCon :: TyCon
#if MIN_VERSION_base(4,4,0)
composeModeTyCon = mkTyCon3 "ad" "Numeric.AD.Internal.Composition" "ComposeMode"
#else
composeModeTyCon = mkTyCon "Numeric.AD.Internal.Composition.ComposeMode"
#endif
composeModeConstr :: Constr
composeModeConstr = mkConstr composeModeDataType "ComposeMode" [] Prefix
composeModeDataType :: DataType
composeModeDataType = mkDataType "Numeric.AD.Internal.Composition.ComposeMode" [composeModeConstr]
instance (Typeable1 f, Typeable1 g, Data (f (AD g a)), Data a) => Data (ComposeMode f g a) where
gfoldl f z (ComposeMode a) = z ComposeMode `f` a
toConstr _ = composeModeConstr
gunfold k z c = case constrIndex c of
1 -> k (z ComposeMode)
_ -> error "gunfold"
dataTypeOf _ = composeModeDataType
dataCast1 f = gcast1 f