----------------------------------------------------------------------------- -- | -- Module : Data.Array.Storable -- Copyright : (c) The University of Glasgow 2001 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : libraries@haskell.org -- Stability : experimental -- Portability : non-portable (uses Data.Array.MArray) -- -- A storable array is an IO-mutable array which stores its -- contents in a contiguous memory block living in the C -- heap. Elements are stored according to the class 'Storable'. -- You can obtain the pointer to the array contents to manipulate -- elements from languages like C. -- -- It is similar to 'Data.Array.IO.IOUArray' but slower. -- Its advantage is that it's compatible with C. -- ----------------------------------------------------------------------------- module Data.Array.Storable ( -- * Arrays of 'Storable' things. StorableArray, -- data StorableArray index element -- -- index type must be in class Ix -- -- element type must be in class Storable -- * Overloaded mutable array interface -- | Module "Data.Array.MArray" provides the interface of storable arrays. -- They are instances of class 'MArray' (with the 'IO' monad). module Data.Array.MArray, -- * Accessing the pointer to the array contents withStorableArray, -- :: StorableArray i e -> (Ptr e -> IO a) -> IO a touchStorableArray, -- :: StorableArray i e -> IO () unsafeForeignPtrToStorableArray ) where import Prelude import Data.Array.Base import Data.Array.MArray import Foreign hiding (newArray) -- |The array type data StorableArray i e = StorableArray !i !i !(ForeignPtr e) instance Storable e => MArray StorableArray e IO where getBounds (StorableArray l u _) = return (l,u) newArray (l,u) init = do fp <- mallocForeignPtrArray size withForeignPtr fp $ \a -> sequence_ [pokeElemOff a i init | i <- [0..size-1]] return (StorableArray l u fp) where size = rangeSize (l,u) unsafeNewArray_ (l,u) = do fp <- mallocForeignPtrArray (rangeSize (l,u)) return (StorableArray l u fp) newArray_ = unsafeNewArray_ unsafeRead (StorableArray _ _ fp) i = withForeignPtr fp $ \a -> peekElemOff a i unsafeWrite (StorableArray _ _ fp) i e = withForeignPtr fp $ \a -> pokeElemOff a i e -- |The pointer to the array contents is obtained by 'withStorableArray'. -- The idea is similar to 'ForeignPtr' (used internally here). -- The pointer should be used only during execution of the 'IO' action -- retured by the function passed as argument to 'withStorableArray'. withStorableArray :: StorableArray i e -> (Ptr e -> IO a) -> IO a withStorableArray (StorableArray _ _ fp) f = withForeignPtr fp f -- |If you want to use it afterwards, ensure that you -- 'touchStorableArray' after the last use of the pointer, -- so the array is not freed too early. touchStorableArray :: StorableArray i e -> IO () touchStorableArray (StorableArray _ _ fp) = touchForeignPtr fp -- |Construct a 'StorableArray' from an arbitrary 'ForeignPtr'. It is -- the caller's responsibility to ensure that the 'ForeignPtr' points to -- an area of memory sufficient for the specified bounds. unsafeForeignPtrToStorableArray :: ForeignPtr e -> (i,i) -> IO (StorableArray i e) unsafeForeignPtrToStorableArray p (l,u) = return (StorableArray l u p)