Safe Haskell	None
Language	Haskell98

Algebra.NormedSpace.Maximum

Description

Abstraction of normed vector spaces

Synopsis

Documentation

class (C a, C a v) => C a v where #

Methods

norm :: v -> a #

Instances

C Double Double #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: Double -> Double #
C Float Float #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: Float -> Float #
C Int Int #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: Int -> Int #
C Integer Integer #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: Integer -> Integer #
(C a v, RealFloat v) => C a (Complex v) #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: Complex v -> a #
(Ord a, C a v) => C a [v] #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: [v] -> a #
(Ord a, C a v) => C a (T v) #
Instance details Defined in Number.Complex Methods norm :: T v -> a #
(Ord a, C a v0, C a v1) => C a (v0, v1) #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: (v0, v1) -> a #
(Ord i, Eq a, Eq v, C a v) => C a (Map i v) #
Instance details Defined in MathObj.DiscreteMap Methods norm :: Map i v -> a #
(Ord a, C a v0, C a v1, C a v2) => C a (v0, v1, v2) #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: (v0, v1, v2) -> a #
(C a, C a, C a) => C (T a) (T a) #
Instance details Defined in Algebra.NormedSpace.Maximum Methods norm :: T a -> T a #
C a v => C (T a) (T v) #
Instance details Defined in MathObj.Wrapper.NumericPrelude Methods norm :: T v -> T a #

normFoldable :: (C a v, Foldable f) => f v -> a #

Default definition for norm that is based on Foldable class.

normFoldable1 :: (C a v, Foldable f, Functor f) => f v -> a #

Default definition for norm that is based on Foldable class and the argument vector has at least one component.