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{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE UndecidableInstances #-}
-----------------------------------------------------------------------------
-- |
-- Module : Numeric.Container
-- Copyright : (c) Alberto Ruiz 2010
-- License : GPL-style
--
-- Maintainer : Alberto Ruiz <aruiz@um.es>
-- Stability : provisional
-- Portability : portable
--
-- Basic numeric operations on 'Vector' and 'Matrix', including conversion routines.
--
-- The 'Container' class is used to define optimized generic functions which work
-- on 'Vector' and 'Matrix' with real or complex elements.
--
-- Some of these functions are also available in the instances of the standard
-- numeric Haskell classes provided by "Numeric.LinearAlgebra".
--
-----------------------------------------------------------------------------
module Numeric.Container (
-- * Basic functions
module Data.Packed,
constant, linspace,
diag, ident,
ctrans,
-- * Generic operations
Container(..),
-- * Matrix product
Product(..),
optimiseMult,
mXm,mXv,vXm,(<.>),(<>),(<\>),
outer, kronecker,
-- * Random numbers
RandDist(..),
randomVector,
gaussianSample,
uniformSample,
meanCov,
-- * Element conversion
Convert(..),
Complexable(),
RealElement(),
RealOf, ComplexOf, SingleOf, DoubleOf,
IndexOf,
module Data.Complex,
-- * Input / Output
dispf, disps, dispcf, vecdisp, latexFormat, format,
loadMatrix, saveMatrix, fromFile, fileDimensions,
readMatrix,
fscanfVector, fprintfVector, freadVector, fwriteVector,
-- * Experimental
build', konst',
-- * Deprecated
(.*),(*/),(<|>),(<->),
vectorMax,vectorMin,
vectorMaxIndex, vectorMinIndex
) where
import Data.Packed
import Data.Packed.Internal(constantD)
import Numeric.ContainerBoot
import Numeric.Chain
import Numeric.IO
import Data.Complex
import Numeric.LinearAlgebra.Algorithms(Field,linearSolveSVD)
import Data.Packed.Random
------------------------------------------------------------------
{- | creates a vector with a given number of equal components:
@> constant 2 7
7 |> [2.0,2.0,2.0,2.0,2.0,2.0,2.0]@
-}
constant :: Element a => a -> Int -> Vector a
-- constant x n = runSTVector (newVector x n)
constant = constantD-- about 2x faster
{- | Creates a real vector containing a range of values:
@\> linspace 5 (-3,7)
5 |> [-3.0,-0.5,2.0,4.5,7.0]@
Logarithmic spacing can be defined as follows:
@logspace n (a,b) = 10 ** linspace n (a,b)@
-}
linspace :: (Enum e, Container Vector e) => Int -> (e, e) -> Vector e
linspace n (a,b) = addConstant a $ scale s $ fromList [0 .. fromIntegral n-1]
where s = (b-a)/fromIntegral (n-1)
-- | Dot product: @u \<.\> v = dot u v@
(<.>) :: Product t => Vector t -> Vector t -> t
infixl 7 <.>
(<.>) = dot
--------------------------------------------------------
class Mul a b c | a b -> c where
infixl 7 <>
-- | Matrix-matrix, matrix-vector, and vector-matrix products.
(<>) :: Product t => a t -> b t -> c t
instance Mul Matrix Matrix Matrix where
(<>) = mXm
instance Mul Matrix Vector Vector where
(<>) m v = flatten $ m <> asColumn v
instance Mul Vector Matrix Vector where
(<>) v m = flatten $ asRow v <> m
--------------------------------------------------------
-- | least squares solution of a linear system, similar to the \\ operator of Matlab\/Octave (based on linearSolveSVD).
(<\>) :: (Field a) => Matrix a -> Vector a -> Vector a
infixl 7 <\>
m <\> v = flatten (linearSolveSVD m (reshape 1 v))
--------------------------------------------------------
|
