module Foreign.Marshal.Pool (
Pool,
newPool,
freePool,
withPool,
pooledMalloc,
pooledMallocBytes,
pooledRealloc,
pooledReallocBytes,
pooledMallocArray,
pooledMallocArray0,
pooledReallocArray,
pooledReallocArray0,
pooledNew,
pooledNewArray,
pooledNewArray0
) where
#ifdef __GLASGOW_HASKELL__
import GHC.Base ( Int, Monad(..), (.), not )
import GHC.Err ( undefined )
import GHC.Exception ( throw )
import GHC.IO ( IO, mask, catchAny )
import GHC.IORef ( IORef, newIORef, readIORef, writeIORef )
import GHC.List ( elem, length )
import GHC.Num ( Num(..) )
#else
import Data.IORef ( IORef, newIORef, readIORef, writeIORef )
import Control.Exception.Base ( bracket )
#endif
import Control.Monad ( liftM )
import Data.List ( delete )
import Foreign.Marshal.Alloc ( mallocBytes, reallocBytes, free )
import Foreign.Marshal.Array ( pokeArray, pokeArray0 )
import Foreign.Marshal.Error ( throwIf )
import Foreign.Ptr ( Ptr, castPtr )
import Foreign.Storable ( Storable(sizeOf, poke) )
newtype Pool = Pool (IORef [Ptr ()])
newPool :: IO Pool
newPool = liftM Pool (newIORef [])
freePool :: Pool -> IO ()
freePool (Pool pool) = readIORef pool >>= freeAll
where freeAll [] = return ()
freeAll (p:ps) = free p >> freeAll ps
withPool :: (Pool -> IO b) -> IO b
#ifdef __GLASGOW_HASKELL__
withPool act =
mask (\restore -> do
pool <- newPool
val <- catchAny
(restore (act pool))
(\e -> do freePool pool; throw e)
freePool pool
return val)
#else
withPool = bracket newPool freePool
#endif
pooledMalloc :: Storable a => Pool -> IO (Ptr a)
pooledMalloc = pm undefined
where
pm :: Storable a' => a' -> Pool -> IO (Ptr a')
pm dummy pool = pooledMallocBytes pool (sizeOf dummy)
pooledMallocBytes :: Pool -> Int -> IO (Ptr a)
pooledMallocBytes (Pool pool) size = do
ptr <- mallocBytes size
ptrs <- readIORef pool
writeIORef pool (ptr:ptrs)
return (castPtr ptr)
pooledRealloc :: Storable a => Pool -> Ptr a -> IO (Ptr a)
pooledRealloc = pr undefined
where
pr :: Storable a' => a' -> Pool -> Ptr a' -> IO (Ptr a')
pr dummy pool ptr = pooledReallocBytes pool ptr (sizeOf dummy)
pooledReallocBytes :: Pool -> Ptr a -> Int -> IO (Ptr a)
pooledReallocBytes (Pool pool) ptr size = do
let cPtr = castPtr ptr
_ <- throwIf (not . (cPtr `elem`)) (\_ -> "pointer not in pool") (readIORef pool)
newPtr <- reallocBytes cPtr size
ptrs <- readIORef pool
writeIORef pool (newPtr : delete cPtr ptrs)
return (castPtr newPtr)
pooledMallocArray :: Storable a => Pool -> Int -> IO (Ptr a)
pooledMallocArray = pma undefined
where
pma :: Storable a' => a' -> Pool -> Int -> IO (Ptr a')
pma dummy pool size = pooledMallocBytes pool (size * sizeOf dummy)
pooledMallocArray0 :: Storable a => Pool -> Int -> IO (Ptr a)
pooledMallocArray0 pool size =
pooledMallocArray pool (size + 1)
pooledReallocArray :: Storable a => Pool -> Ptr a -> Int -> IO (Ptr a)
pooledReallocArray = pra undefined
where
pra :: Storable a' => a' -> Pool -> Ptr a' -> Int -> IO (Ptr a')
pra dummy pool ptr size = pooledReallocBytes pool ptr (size * sizeOf dummy)
pooledReallocArray0 :: Storable a => Pool -> Ptr a -> Int -> IO (Ptr a)
pooledReallocArray0 pool ptr size =
pooledReallocArray pool ptr (size + 1)
pooledNew :: Storable a => Pool -> a -> IO (Ptr a)
pooledNew pool val = do
ptr <- pooledMalloc pool
poke ptr val
return ptr
pooledNewArray :: Storable a => Pool -> [a] -> IO (Ptr a)
pooledNewArray pool vals = do
ptr <- pooledMallocArray pool (length vals)
pokeArray ptr vals
return ptr
pooledNewArray0 :: Storable a => Pool -> a -> [a] -> IO (Ptr a)
pooledNewArray0 pool marker vals = do
ptr <- pooledMallocArray0 pool (length vals)
pokeArray0 marker ptr vals
return ptr