{-# OPTIONS_GHC -fglasgow-exts #-} ----------------------------------------------------------------------------- -- | -- Module : Numeric.GSL.Vector -- Copyright : (c) Alberto Ruiz 2007 -- License : GPL-style -- -- Maintainer : Alberto Ruiz -- Stability : provisional -- Portability : portable (uses FFI) -- -- Low level interface to vector operations. -- ----------------------------------------------------------------------------- module Numeric.GSL.Vector ( sumF, sumR, sumQ, sumC, dotF, dotR, dotQ, dotC, FunCodeS(..), toScalarR, toScalarF, toScalarC, toScalarQ, FunCodeV(..), vectorMapR, vectorMapC, vectorMapF, FunCodeSV(..), vectorMapValR, vectorMapValC, vectorMapValF, FunCodeVV(..), vectorZipR, vectorZipC, vectorZipF, RandDist(..), randomVector ) where import Data.Packed.Internal.Common import Data.Packed.Internal.Signatures import Data.Packed.Internal.Vector import Data.Complex import Foreign import Foreign.C.Types(CInt) fromei x = fromIntegral (fromEnum x) :: CInt data FunCodeV = Sin | Cos | Tan | Abs | ASin | ACos | ATan | Sinh | Cosh | Tanh | ASinh | ACosh | ATanh | Exp | Log | Sign | Sqrt deriving Enum data FunCodeSV = Scale | Recip | AddConstant | Negate | PowSV | PowVS deriving Enum data FunCodeVV = Add | Sub | Mul | Div | Pow | ATan2 deriving Enum data FunCodeS = Norm2 | AbsSum | MaxIdx | Max | MinIdx | Min deriving Enum ------------------------------------------------------------------ -- | sum of elements sumF :: Vector Float -> Float sumF x = unsafePerformIO $ do r <- createVector 1 app2 c_sumF vec x vec r "sumF" return $ r @> 0 -- | sum of elements sumR :: Vector Double -> Double sumR x = unsafePerformIO $ do r <- createVector 1 app2 c_sumR vec x vec r "sumR" return $ r @> 0 -- | sum of elements sumQ :: Vector (Complex Float) -> Complex Float sumQ x = unsafePerformIO $ do r <- createVector 1 app2 c_sumQ vec x vec r "sumQ" return $ r @> 0 -- | sum of elements sumC :: Vector (Complex Double) -> Complex Double sumC x = unsafePerformIO $ do r <- createVector 1 app2 c_sumC vec x vec r "sumC" return $ r @> 0 foreign import ccall safe "gsl-aux.h sumF" c_sumF :: TFF foreign import ccall safe "gsl-aux.h sumR" c_sumR :: TVV foreign import ccall safe "gsl-aux.h sumQ" c_sumQ :: TQVQV foreign import ccall safe "gsl-aux.h sumC" c_sumC :: TCVCV -- | dot product dotF :: Vector Float -> Vector Float -> Float dotF x y = unsafePerformIO $ do r <- createVector 1 app3 c_dotF vec x vec y vec r "dotF" return $ r @> 0 -- | dot product dotR :: Vector Double -> Vector Double -> Double dotR x y = unsafePerformIO $ do r <- createVector 1 app3 c_dotR vec x vec y vec r "dotR" return $ r @> 0 -- | dot product dotQ :: Vector (Complex Float) -> Vector (Complex Float) -> Complex Float dotQ x y = unsafePerformIO $ do r <- createVector 1 app3 c_dotQ vec x vec y vec r "dotQ" return $ r @> 0 -- | dot product dotC :: Vector (Complex Double) -> Vector (Complex Double) -> Complex Double dotC x y = unsafePerformIO $ do r <- createVector 1 app3 c_dotC vec x vec y vec r "dotC" return $ r @> 0 foreign import ccall safe "gsl-aux.h dotF" c_dotF :: TFFF foreign import ccall safe "gsl-aux.h dotR" c_dotR :: TVVV foreign import ccall safe "gsl-aux.h dotQ" c_dotQ :: TQVQVQV foreign import ccall safe "gsl-aux.h dotC" c_dotC :: TCVCVCV ------------------------------------------------------------------ toScalarAux fun code v = unsafePerformIO $ do r <- createVector 1 app2 (fun (fromei code)) vec v vec r "toScalarAux" return (r `at` 0) vectorMapAux fun code v = unsafePerformIO $ do r <- createVector (dim v) app2 (fun (fromei code)) vec v vec r "vectorMapAux" return r vectorMapValAux fun code val v = unsafePerformIO $ do r <- createVector (dim v) pval <- newArray [val] app2 (fun (fromei code) pval) vec v vec r "vectorMapValAux" free pval return r vectorZipAux fun code u v = unsafePerformIO $ do r <- createVector (dim u) app3 (fun (fromei code)) vec u vec v vec r "vectorZipAux" return r --------------------------------------------------------------------- -- | obtains different functions of a vector: norm1, norm2, max, min, posmax, posmin, etc. toScalarR :: FunCodeS -> Vector Double -> Double toScalarR oper = toScalarAux c_toScalarR (fromei oper) foreign import ccall safe "gsl-aux.h toScalarR" c_toScalarR :: CInt -> TVV -- | obtains different functions of a vector: norm1, norm2, max, min, posmax, posmin, etc. toScalarF :: FunCodeS -> Vector Float -> Float toScalarF oper = toScalarAux c_toScalarF (fromei oper) foreign import ccall safe "gsl-aux.h toScalarF" c_toScalarF :: CInt -> TFF -- | obtains different functions of a vector: only norm1, norm2 toScalarC :: FunCodeS -> Vector (Complex Double) -> Double toScalarC oper = toScalarAux c_toScalarC (fromei oper) foreign import ccall safe "gsl-aux.h toScalarC" c_toScalarC :: CInt -> TCVV -- | obtains different functions of a vector: only norm1, norm2 toScalarQ :: FunCodeS -> Vector (Complex Float) -> Float toScalarQ oper = toScalarAux c_toScalarQ (fromei oper) foreign import ccall safe "gsl-aux.h toScalarQ" c_toScalarQ :: CInt -> TQVF ------------------------------------------------------------------ -- | map of real vectors with given function vectorMapR :: FunCodeV -> Vector Double -> Vector Double vectorMapR = vectorMapAux c_vectorMapR foreign import ccall safe "gsl-aux.h mapR" c_vectorMapR :: CInt -> TVV -- | map of complex vectors with given function vectorMapC :: FunCodeV -> Vector (Complex Double) -> Vector (Complex Double) vectorMapC oper = vectorMapAux c_vectorMapC (fromei oper) foreign import ccall safe "gsl-aux.h mapC" c_vectorMapC :: CInt -> TCVCV -- | map of real vectors with given function vectorMapF :: FunCodeV -> Vector Float -> Vector Float vectorMapF = vectorMapAux c_vectorMapF foreign import ccall safe "gsl-aux.h mapF" c_vectorMapF :: CInt -> TFF ------------------------------------------------------------------- -- | map of real vectors with given function vectorMapValR :: FunCodeSV -> Double -> Vector Double -> Vector Double vectorMapValR oper = vectorMapValAux c_vectorMapValR (fromei oper) foreign import ccall safe "gsl-aux.h mapValR" c_vectorMapValR :: CInt -> Ptr Double -> TVV -- | map of complex vectors with given function vectorMapValC :: FunCodeSV -> Complex Double -> Vector (Complex Double) -> Vector (Complex Double) vectorMapValC = vectorMapValAux c_vectorMapValC foreign import ccall safe "gsl-aux.h mapValC" c_vectorMapValC :: CInt -> Ptr (Complex Double) -> TCVCV -- | map of real vectors with given function vectorMapValF :: FunCodeSV -> Float -> Vector Float -> Vector Float vectorMapValF oper = vectorMapValAux c_vectorMapValF (fromei oper) foreign import ccall safe "gsl-aux.h mapValF" c_vectorMapValF :: CInt -> Ptr Float -> TFF ------------------------------------------------------------------- -- | elementwise operation on real vectors vectorZipR :: FunCodeVV -> Vector Double -> Vector Double -> Vector Double vectorZipR = vectorZipAux c_vectorZipR foreign import ccall safe "gsl-aux.h zipR" c_vectorZipR :: CInt -> TVVV -- | elementwise operation on complex vectors vectorZipC :: FunCodeVV -> Vector (Complex Double) -> Vector (Complex Double) -> Vector (Complex Double) vectorZipC = vectorZipAux c_vectorZipC foreign import ccall safe "gsl-aux.h zipC" c_vectorZipC :: CInt -> TCVCVCV -- | elementwise operation on real vectors vectorZipF :: FunCodeVV -> Vector Float -> Vector Float -> Vector Float vectorZipF = vectorZipAux c_vectorZipF foreign import ccall safe "gsl-aux.h zipF" c_vectorZipF :: CInt -> TFFF ----------------------------------------------------------------------- data RandDist = Uniform -- ^ uniform distribution in [0,1) | Gaussian -- ^ normal distribution with mean zero and standard deviation one deriving Enum -- | Obtains a vector of pseudorandom elements from the the mt19937 generator in GSL, with a given seed. Use randomIO to get a random seed. randomVector :: Int -- ^ seed -> RandDist -- ^ distribution -> Int -- ^ vector size -> Vector Double randomVector seed dist n = unsafePerformIO $ do r <- createVector n app1 (c_random_vector (fi seed) ((fi.fromEnum) dist)) vec r "randomVector" return r foreign import ccall safe "random_vector" c_random_vector :: CInt -> CInt -> TV