Copyright	(c) Edward Kmett 2010-2021
License	BSD3
Maintainer	ekmett@gmail.com
Stability	experimental
Portability	GHC only
Safe Haskell	None
Language	Haskell2010

Numeric.AD.Rank1.Dense.Representable

Contents

Sparse Gradients
Sparse Jacobians (synonyms)

Description

Dense forward mode automatic differentiation with representable functors.

Synopsis

data Repr f a
auto :: Mode t => Scalar t -> t
grad :: (Representable f, Eq (Rep f), Num a) => (f (Repr f a) -> Repr f a) -> f a -> f a
grad' :: (Representable f, Eq (Rep f), Num a) => (f (Repr f a) -> Repr f a) -> f a -> (a, f a)
gradWith :: (Representable f, Eq (Rep f), Num a) => (a -> a -> b) -> (f (Repr f a) -> Repr f a) -> f a -> f b
gradWith' :: (Representable f, Eq (Rep f), Num a) => (a -> a -> b) -> (f (Repr f a) -> Repr f a) -> f a -> (a, f b)
jacobian :: (Representable f, Eq (Rep f), Functor g, Num a) => (f (Repr f a) -> g (Repr f a)) -> f a -> g (f a)
jacobian' :: (Representable f, Eq (Rep f), Functor g, Num a) => (f (Repr f a) -> g (Repr f a)) -> f a -> g (a, f a)
jacobianWith :: (Representable f, Eq (Rep f), Functor g, Num a) => (a -> a -> b) -> (f (Repr f a) -> g (Repr f a)) -> f a -> g (f b)
jacobianWith' :: (Representable f, Eq (Rep f), Functor g, Num a) => (a -> a -> b) -> (f (Repr f a) -> g (Repr f a)) -> f a -> g (a, f b)

Documentation

data Repr f a Source #

Instances

Instances details

(Representable f, Num a, Bounded a) => Bounded (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods minBound :: Repr f a # maxBound :: Repr f a #
(Representable f, Num a, Enum a) => Enum (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods succ :: Repr f a -> Repr f a # pred :: Repr f a -> Repr f a # toEnum :: Int -> Repr f a # fromEnum :: Repr f a -> Int # enumFrom :: Repr f a -> [Repr f a] # enumFromThen :: Repr f a -> Repr f a -> [Repr f a] # enumFromTo :: Repr f a -> Repr f a -> [Repr f a] # enumFromThenTo :: Repr f a -> Repr f a -> Repr f a -> [Repr f a] #
(Representable f, Num a, Eq a) => Eq (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods (==) :: Repr f a -> Repr f a -> Bool # (/=) :: Repr f a -> Repr f a -> Bool #
(Representable f, Floating a) => Floating (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods pi :: Repr f a # exp :: Repr f a -> Repr f a # log :: Repr f a -> Repr f a # sqrt :: Repr f a -> Repr f a # (**) :: Repr f a -> Repr f a -> Repr f a # logBase :: Repr f a -> Repr f a -> Repr f a # sin :: Repr f a -> Repr f a # cos :: Repr f a -> Repr f a # tan :: Repr f a -> Repr f a # asin :: Repr f a -> Repr f a # acos :: Repr f a -> Repr f a # atan :: Repr f a -> Repr f a # sinh :: Repr f a -> Repr f a # cosh :: Repr f a -> Repr f a # tanh :: Repr f a -> Repr f a # asinh :: Repr f a -> Repr f a # acosh :: Repr f a -> Repr f a # atanh :: Repr f a -> Repr f a # log1p :: Repr f a -> Repr f a # expm1 :: Repr f a -> Repr f a # log1pexp :: Repr f a -> Repr f a # log1mexp :: Repr f a -> Repr f a #
(Representable f, Fractional a) => Fractional (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods (/) :: Repr f a -> Repr f a -> Repr f a # recip :: Repr f a -> Repr f a # fromRational :: Rational -> Repr f a #
(Representable f, Num a) => Num (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods (+) :: Repr f a -> Repr f a -> Repr f a # (-) :: Repr f a -> Repr f a -> Repr f a # (*) :: Repr f a -> Repr f a -> Repr f a # negate :: Repr f a -> Repr f a # abs :: Repr f a -> Repr f a # signum :: Repr f a -> Repr f a # fromInteger :: Integer -> Repr f a #
(Representable f, Num a, Ord a) => Ord (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods compare :: Repr f a -> Repr f a -> Ordering # (<) :: Repr f a -> Repr f a -> Bool # (<=) :: Repr f a -> Repr f a -> Bool # (>) :: Repr f a -> Repr f a -> Bool # (>=) :: Repr f a -> Repr f a -> Bool # max :: Repr f a -> Repr f a -> Repr f a # min :: Repr f a -> Repr f a -> Repr f a #
(Representable f, Real a) => Real (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods toRational :: Repr f a -> Rational #
(Representable f, RealFloat a) => RealFloat (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods floatRadix :: Repr f a -> Integer # floatDigits :: Repr f a -> Int # floatRange :: Repr f a -> (Int, Int) # decodeFloat :: Repr f a -> (Integer, Int) # encodeFloat :: Integer -> Int -> Repr f a # exponent :: Repr f a -> Int # significand :: Repr f a -> Repr f a # scaleFloat :: Int -> Repr f a -> Repr f a # isNaN :: Repr f a -> Bool # isInfinite :: Repr f a -> Bool # isDenormalized :: Repr f a -> Bool # isNegativeZero :: Repr f a -> Bool # isIEEE :: Repr f a -> Bool # atan2 :: Repr f a -> Repr f a -> Repr f a #
(Representable f, RealFrac a) => RealFrac (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods properFraction :: Integral b => Repr f a -> (b, Repr f a) # truncate :: Integral b => Repr f a -> b # round :: Integral b => Repr f a -> b # ceiling :: Integral b => Repr f a -> b # floor :: Integral b => Repr f a -> b #
Show a => Show (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods showsPrec :: Int -> Repr f a -> ShowS # show :: Repr f a -> String # showList :: [Repr f a] -> ShowS #
(Representable f, Erf a) => Erf (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods erf :: Repr f a -> Repr f a # erfc :: Repr f a -> Repr f a # erfcx :: Repr f a -> Repr f a # normcdf :: Repr f a -> Repr f a #
(Representable f, InvErf a) => InvErf (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Methods inverf :: Repr f a -> Repr f a # inverfc :: Repr f a -> Repr f a # invnormcdf :: Repr f a -> Repr f a #
(Representable f, Num a) => Mode (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Associated Types type Scalar (Repr f a) Source # Methods isKnownConstant :: Repr f a -> Bool Source # asKnownConstant :: Repr f a -> Maybe (Scalar (Repr f a)) Source # isKnownZero :: Repr f a -> Bool Source # auto :: Scalar (Repr f a) -> Repr f a Source # (^) :: Scalar (Repr f a) -> Repr f a -> Repr f a Source # (^) :: Repr f a -> Scalar (Repr f a) -> Repr f a Source # (^/) :: Repr f a -> Scalar (Repr f a) -> Repr f a Source # zero :: Repr f a Source #
(Representable f, Num a) => Jacobian (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable Associated Types type D (Repr f a) Source # Methods unary :: (Scalar (Repr f a) -> Scalar (Repr f a)) -> D (Repr f a) -> Repr f a -> Repr f a Source # lift1 :: (Scalar (Repr f a) -> Scalar (Repr f a)) -> (D (Repr f a) -> D (Repr f a)) -> Repr f a -> Repr f a Source # lift1_ :: (Scalar (Repr f a) -> Scalar (Repr f a)) -> (D (Repr f a) -> D (Repr f a) -> D (Repr f a)) -> Repr f a -> Repr f a Source # binary :: (Scalar (Repr f a) -> Scalar (Repr f a) -> Scalar (Repr f a)) -> D (Repr f a) -> D (Repr f a) -> Repr f a -> Repr f a -> Repr f a Source # lift2 :: (Scalar (Repr f a) -> Scalar (Repr f a) -> Scalar (Repr f a)) -> (D (Repr f a) -> D (Repr f a) -> (D (Repr f a), D (Repr f a))) -> Repr f a -> Repr f a -> Repr f a Source # lift2_ :: (Scalar (Repr f a) -> Scalar (Repr f a) -> Scalar (Repr f a)) -> (D (Repr f a) -> D (Repr f a) -> D (Repr f a) -> (D (Repr f a), D (Repr f a))) -> Repr f a -> Repr f a -> Repr f a Source #
type Scalar (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable type Scalar (Repr f a) = a
type D (Repr f a) Source #
Instance details Defined in Numeric.AD.Internal.Dense.Representable type D (Repr f a) = Id a

auto :: Mode t => Scalar t -> t Source #

Embed a constant

Sparse Gradients

grad :: (Representable f, Eq (Rep f), Num a) => (f (Repr f a) -> Repr f a) -> f a -> f a Source #

grad' :: (Representable f, Eq (Rep f), Num a) => (f (Repr f a) -> Repr f a) -> f a -> (a, f a) Source #

gradWith :: (Representable f, Eq (Rep f), Num a) => (a -> a -> b) -> (f (Repr f a) -> Repr f a) -> f a -> f b Source #

gradWith' :: (Representable f, Eq (Rep f), Num a) => (a -> a -> b) -> (f (Repr f a) -> Repr f a) -> f a -> (a, f b) Source #

Sparse Jacobians (synonyms)

jacobian :: (Representable f, Eq (Rep f), Functor g, Num a) => (f (Repr f a) -> g (Repr f a)) -> f a -> g (f a) Source #

jacobian' :: (Representable f, Eq (Rep f), Functor g, Num a) => (f (Repr f a) -> g (Repr f a)) -> f a -> g (a, f a) Source #

jacobianWith :: (Representable f, Eq (Rep f), Functor g, Num a) => (a -> a -> b) -> (f (Repr f a) -> g (Repr f a)) -> f a -> g (f b) Source #

jacobianWith' :: (Representable f, Eq (Rep f), Functor g, Num a) => (a -> a -> b) -> (f (Repr f a) -> g (Repr f a)) -> f a -> g (a, f b) Source #