path: root/lib/Data/Packed/Internal/Vector.hs

{-# LANGUAGE MagicHash, CPP, UnboxedTuples, BangPatterns #-}
-----------------------------------------------------------------------------
-- |
-- Module      :  Data.Packed.Internal.Vector
-- Copyright   :  (c) Alberto Ruiz 2007
-- License     :  GPL-style
--
-- Maintainer  :  Alberto Ruiz <aruiz@um.es>
-- Stability   :  provisional
-- Portability :  portable (uses FFI)
--
-- Vector implementation
--
-----------------------------------------------------------------------------
-- #hide

module Data.Packed.Internal.Vector where

import Data.Packed.Internal.Common
import Foreign
import Complex
import Control.Monad(when)

#if __GLASGOW_HASKELL__ >= 605
import GHC.ForeignPtr           (mallocPlainForeignPtrBytes)
#else
import Foreign.ForeignPtr       (mallocForeignPtrBytes)
#endif

import GHC.Base
import GHC.IOBase

-- | A one-dimensional array of objects stored in a contiguous memory block.
data Vector t =
    V { dim  :: {-# UNPACK #-} !Int               -- ^ number of elements
      , fptr :: {-# UNPACK #-} !(ForeignPtr t)    -- ^ foreign pointer to the memory block
      }

vec = withVector

withVector (V n fp) f = withForeignPtr fp $ \p -> do
    let v g = do
        g (fi n) p
    f v

-- | allocates memory for a new vector
createVector :: Storable a => Int -> IO (Vector a)
createVector n = do
    when (n <= 0) $ error ("trying to createVector of dim "++show n)
    fp <- doMalloc undefined
    return $ V n fp
  where
    --
    -- Use the much cheaper Haskell heap allocated storage
    -- for foreign pointer space we control
    --
    doMalloc :: Storable b => b -> IO (ForeignPtr b)
    doMalloc dummy = do
#if __GLASGOW_HASKELL__ >= 605
        mallocPlainForeignPtrBytes (n * sizeOf dummy)
#else
        mallocForeignPtrBytes      (n * sizeOf dummy)
#endif

{- | creates a Vector from a list:

@> fromList [2,3,5,7]
4 |> [2.0,3.0,5.0,7.0]@

-}
fromList :: Storable a => [a] -> Vector a
fromList l = unsafePerformIO $ do
    v <- createVector (length l)
    let f _ p = pokeArray p l >> return 0
    app1 f vec v "fromList"
    return v

safeRead v = inlinePerformIO . withForeignPtr (fptr v)
{-# INLINE safeRead #-}

inlinePerformIO :: IO a -> a
inlinePerformIO (IO m) = case m realWorld# of (# _, r #) -> r
{-# INLINE inlinePerformIO #-}

{- | extracts the Vector elements to a list

@> toList (linspace 5 (1,10))
[1.0,3.25,5.5,7.75,10.0]@

-}
toList :: Storable a => Vector a -> [a]
toList v = safeRead v $ peekArray (dim v)

-- | an alternative to 'fromList' with explicit dimension, used also in the instances for Show (Vector a).
(|>) :: (Storable a) => Int -> [a] -> Vector a
infixl 9 |>
n |> l = if length l == n then fromList l else error "|> with wrong size"

-- | access to Vector elements without range checking
at' :: Storable a => Vector a -> Int -> a
at' v n = safeRead v $ flip peekElemOff n
{-# INLINE at' #-}

--
-- turn off bounds checking with -funsafe at configure time.
-- ghc will optimise away the salways true case at compile time.
--
#if defined(UNSAFE)
safe :: Bool
safe = False
#else
safe = True
#endif

-- | access to Vector elements with range checking.
at :: Storable a => Vector a -> Int -> a
at v n
    | safe      = if n >= 0 && n < dim v
                    then at' v n
                    else error "vector index out of range"
    | otherwise = at' v n
{-# INLINE at #-}

{- | takes a number of consecutive elements from a Vector

@> subVector 2 3 (fromList [1..10])
3 |> [3.0,4.0,5.0]@

-}
subVector :: Storable t => Int       -- ^ index of the starting element
                        -> Int       -- ^ number of elements to extract
                        -> Vector t  -- ^ source
                        -> Vector t  -- ^ result
subVector k l (v@V {dim=n})
    | k<0 || k >= n || k+l > n || l < 0 = error "subVector out of range"
    | otherwise = unsafePerformIO $ do
        r <- createVector l
        let f _ s _ d = copyArray d (advancePtr s k) l >> return 0
        app2 f vec v vec r "subVector"
        return r

{- | Reads a vector position:

@> fromList [0..9] \@\> 7
7.0@

-}
(@>) :: Storable t => Vector t -> Int -> t
infixl 9 @>
(@>) = at


{- | creates a new Vector by joining a list of Vectors

@> join [fromList [1..5], constant 1 3]
8 |> [1.0,2.0,3.0,4.0,5.0,1.0,1.0,1.0]@

-}
join :: Storable t => [Vector t] -> Vector t
join [] = error "joining zero vectors"
join as = unsafePerformIO $ do
    let tot = sum (map dim as)
    r@V {fptr = p} <- createVector tot
    withForeignPtr p $ \ptr ->
        joiner as tot ptr
    return r
  where joiner [] _ _ = return ()
        joiner (V {dim = n, fptr = b} : cs) _ p = do
            withForeignPtr b $ \pb -> copyArray p pb n
            joiner cs 0 (advancePtr p n)


-- | transforms a complex vector into a real vector with alternating real and imaginary parts 
asReal :: Vector (Complex Double) -> Vector Double
asReal v = V { dim = 2*dim v, fptr =  castForeignPtr (fptr v) }

-- | transforms a real vector into a complex vector with alternating real and imaginary parts
asComplex :: Vector Double -> Vector (Complex Double)
asComplex v = V { dim = dim v `div` 2, fptr =  castForeignPtr (fptr v) }

----------------------------------------------------------------

liftVector f x = mapVector f x

liftVector2 f u v = zipVector f u v

-----------------------------------------------------------------

cloneVector :: Storable t => Vector t -> IO (Vector t)
cloneVector (v@V {dim=n}) = do
        r <- createVector n
        let f _ s _ d =  copyArray d s n >> return 0
        app2 f vec v vec r "cloneVector"
        return r

------------------------------------------------------------------

-- | map on Vectors
mapVector :: (Storable a, Storable b) => (a-> b) -> Vector a -> Vector b
mapVector f v = unsafePerformIO $ do
    w <- createVector (dim v)
    withForeignPtr (fptr v) $ \p ->
        withForeignPtr (fptr w) $ \q -> do
            let go (-1) = return ()
                go !k = do x <- peekElemOff p k
                           pokeElemOff      q k (f x)
                           go (k-1)
            go (dim v -1)
    return w
{-# INLINE mapVector #-}

-- | zipWith for Vectors
zipVector :: (Storable a, Storable b, Storable c) => (a-> b -> c) -> Vector a -> Vector b -> Vector c
zipVector f u v = unsafePerformIO $ do
    let n = min (dim u) (dim v)
    w <- createVector n
    withForeignPtr (fptr u) $ \pu ->
        withForeignPtr (fptr v) $ \pv ->
            withForeignPtr (fptr w) $ \pw -> do
                let go (-1) = return ()
                    go !k = do x <- peekElemOff pu k
                               y <- peekElemOff pv k
                               pokeElemOff      pw k (f x y)
                               go (k-1)
                go (n -1)
    return w
{-# INLINE zipVector #-}

foldVector f x v = unsafePerformIO $
    withForeignPtr (fptr (v::Vector Double)) $ \p -> do
        let go (-1) s = return s
            go !k !s = do y <- peekElemOff p k
                          go (k-1::Int) (f y s)
        go (dim v -1) x
{-# INLINE foldVector #-}

foldLoop f s0 d = go (d - 1) s0
     where
       go 0 s = f (0::Int) s
       go !j !s = go (j - 1) (f j s)

foldVectorG f s0 v = foldLoop g s0 (dim v)
    where g !k !s = f k (at' v) s
          {-# INLINE g #-} -- Thanks to Ryan Ingram (http://permalink.gmane.org/gmane.comp.lang.haskell.cafe/46479)
{-# INLINE foldVectorG #-}