-{-# OPTIONS -fno-implicit-prelude #-}
+{-# LANGUAGE CPP
+ , NoImplicitPrelude
+ , MagicHash
+ , UnboxedTuples
+ , ForeignFunctionInterface
+ #-}
+
-----------------------------------------------------------------------------
-- |
-- Module : Foreign.Marshal.Alloc
-- Copyright : (c) The FFI task force 2001
--- License : BSD-style (see the file libraries/core/LICENSE)
+-- License : BSD-style (see the file libraries/base/LICENSE)
--
-- Maintainer : ffi@haskell.org
-- Stability : provisional
-- Portability : portable
--
--- $Id: Alloc.hs,v 1.6 2002/04/24 16:31:44 simonmar Exp $
---
--- Marshalling support: basic routines for memory allocation
+-- The module "Foreign.Marshal.Alloc" provides operations to allocate and
+-- deallocate blocks of raw memory (i.e., unstructured chunks of memory
+-- outside of the area maintained by the Haskell storage manager). These
+-- memory blocks are commonly used to pass compound data structures to
+-- foreign functions or to provide space in which compound result values
+-- are obtained from foreign functions.
+--
+-- If any of the allocation functions fails, an exception is thrown.
+-- In some cases, memory exhaustion may mean the process is terminated.
+-- If 'free' or 'reallocBytes' is applied to a memory area
+-- that has been allocated with 'alloca' or 'allocaBytes', the
+-- behaviour is undefined. Any further access to memory areas allocated with
+-- 'alloca' or 'allocaBytes', after the computation that was passed to
+-- the allocation function has terminated, leads to undefined behaviour. Any
+-- further access to the memory area referenced by a pointer passed to
+-- 'realloc', 'reallocBytes', or 'free' entails undefined
+-- behaviour.
+--
+-- All storage allocated by functions that allocate based on a /size in bytes/
+-- must be sufficiently aligned for any of the basic foreign types
+-- that fits into the newly allocated storage. All storage allocated by
+-- functions that allocate based on a specific type must be sufficiently
+-- aligned for that type. Array allocation routines need to obey the same
+-- alignment constraints for each array element.
--
-----------------------------------------------------------------------------
module Foreign.Marshal.Alloc (
- malloc, -- :: Storable a => IO (Ptr a)
- mallocBytes, -- :: Int -> IO (Ptr a)
-
+ -- * Memory allocation
+ -- ** Local allocation
alloca, -- :: Storable a => (Ptr a -> IO b) -> IO b
allocaBytes, -- :: Int -> (Ptr a -> IO b) -> IO b
+ allocaBytesAligned, -- :: Int -> Int -> (Ptr a -> IO b) -> IO b
- reallocBytes, -- :: Ptr a -> Int -> IO (Ptr a)
+ -- ** Dynamic allocation
+ malloc, -- :: Storable a => IO (Ptr a)
+ mallocBytes, -- :: Int -> IO (Ptr a)
+
+ realloc, -- :: Storable b => Ptr a -> IO (Ptr b)
+ reallocBytes, -- :: Ptr a -> Int -> IO (Ptr a)
- free -- :: Ptr a -> IO ()
+ free, -- :: Ptr a -> IO ()
+ finalizerFree -- :: FinalizerPtr a
) where
import Data.Maybe
-import Foreign.Ptr ( Ptr, nullPtr )
-import Foreign.C.TypesISO ( CSize )
-import Foreign.Storable ( Storable(sizeOf) )
+import Foreign.C.Types ( CSize )
+import Foreign.Storable ( Storable(sizeOf,alignment) )
+
+#ifndef __GLASGOW_HASKELL__
+import Foreign.Ptr ( Ptr, nullPtr, FunPtr )
+#endif
#ifdef __GLASGOW_HASKELL__
-import GHC.Exception ( bracket )
-import GHC.IOBase
+import Foreign.ForeignPtr ( FinalizerPtr )
+import GHC.IO.Exception
import GHC.Real
import GHC.Ptr
import GHC.Err
import GHC.Base
+#elif defined(__NHC__)
+import NHC.FFI ( FinalizerPtr, CInt(..) )
+import IO ( bracket )
+#else
+import Control.Exception.Base ( bracket )
+#endif
+
+#ifdef __HUGS__
+import Hugs.Prelude ( IOException(IOError),
+ IOErrorType(ResourceExhausted) )
+import Hugs.ForeignPtr ( FinalizerPtr )
#endif
-- exported functions
-- ------------------
--- allocate space for storable type
+-- |Allocate a block of memory that is sufficient to hold values of type
+-- @a@. The size of the area allocated is determined by the 'sizeOf'
+-- method from the instance of 'Storable' for the appropriate type.
--
+-- The memory may be deallocated using 'free' or 'finalizerFree' when
+-- no longer required.
+--
+{-# INLINE malloc #-}
malloc :: Storable a => IO (Ptr a)
malloc = doMalloc undefined
where
- doMalloc :: Storable a => a -> IO (Ptr a)
+ doMalloc :: Storable b => b -> IO (Ptr b)
doMalloc dummy = mallocBytes (sizeOf dummy)
--- allocate given number of bytes of storage
+-- |Allocate a block of memory of the given number of bytes.
+-- The block of memory is sufficiently aligned for any of the basic
+-- foreign types that fits into a memory block of the allocated size.
+--
+-- The memory may be deallocated using 'free' or 'finalizerFree' when
+-- no longer required.
--
mallocBytes :: Int -> IO (Ptr a)
mallocBytes size = failWhenNULL "malloc" (_malloc (fromIntegral size))
--- temporarily allocate space for a storable type
+-- |@'alloca' f@ executes the computation @f@, passing as argument
+-- a pointer to a temporarily allocated block of memory sufficient to
+-- hold values of type @a@.
--
--- * the pointer passed as an argument to the function must *not* escape from
--- this function; in other words, in `alloca f' the allocated storage must
--- not be used after `f' returns
+-- The memory is freed when @f@ terminates (either normally or via an
+-- exception), so the pointer passed to @f@ must /not/ be used after this.
--
+{-# INLINE alloca #-}
alloca :: Storable a => (Ptr a -> IO b) -> IO b
alloca = doAlloca undefined
where
- doAlloca :: Storable a => a -> (Ptr a -> IO b) -> IO b
- doAlloca dummy = allocaBytes (sizeOf dummy)
+ doAlloca :: Storable a' => a' -> (Ptr a' -> IO b') -> IO b'
+ doAlloca dummy = allocaBytesAligned (sizeOf dummy) (alignment dummy)
--- temporarily allocate the given number of bytes of storage
+-- |@'allocaBytes' n f@ executes the computation @f@, passing as argument
+-- a pointer to a temporarily allocated block of memory of @n@ bytes.
+-- The block of memory is sufficiently aligned for any of the basic
+-- foreign types that fits into a memory block of the allocated size.
--
--- * the pointer passed as an argument to the function must *not* escape from
--- this function; in other words, in `allocaBytes n f' the allocated storage
--- must not be used after `f' returns
+-- The memory is freed when @f@ terminates (either normally or via an
+-- exception), so the pointer passed to @f@ must /not/ be used after this.
--
#ifdef __GLASGOW_HASKELL__
allocaBytes :: Int -> (Ptr a -> IO b) -> IO b
-allocaBytes (I# size) action = IO $ \ s ->
- case newPinnedByteArray# size s of { (# s, mbarr# #) ->
- case unsafeFreezeByteArray# mbarr# s of { (# s, barr# #) ->
+allocaBytes (I# size) action = IO $ \ s0 ->
+ case newPinnedByteArray# size s0 of { (# s1, mbarr# #) ->
+ case unsafeFreezeByteArray# mbarr# s1 of { (# s2, barr# #) ->
+ let addr = Ptr (byteArrayContents# barr#) in
+ case action addr of { IO action' ->
+ case action' s2 of { (# s3, r #) ->
+ case touch# barr# s3 of { s4 ->
+ (# s4, r #)
+ }}}}}
+
+allocaBytesAligned :: Int -> Int -> (Ptr a -> IO b) -> IO b
+allocaBytesAligned (I# size) (I# align) action = IO $ \ s0 ->
+ case newAlignedPinnedByteArray# size align s0 of { (# s1, mbarr# #) ->
+ case unsafeFreezeByteArray# mbarr# s1 of { (# s2, barr# #) ->
let addr = Ptr (byteArrayContents# barr#) in
- case action addr of { IO action ->
- case action s of { (# s, r #) ->
- case touch# barr# s of { s ->
- (# s, r #)
+ case action addr of { IO action' ->
+ case action' s2 of { (# s3, r #) ->
+ case touch# barr# s3 of { s4 ->
+ (# s4, r #)
}}}}}
#else
allocaBytes :: Int -> (Ptr a -> IO b) -> IO b
allocaBytes size = bracket (mallocBytes size) free
+
+allocaBytesAligned :: Int -> Int -> (Ptr a -> IO b) -> IO b
+allocaBytesAligned size align = allocaBytes size -- wrong
#endif
--- adjust a malloc'ed storage area to the given size
+-- |Resize a memory area that was allocated with 'malloc' or 'mallocBytes'
+-- to the size needed to store values of type @b@. The returned pointer
+-- may refer to an entirely different memory area, but will be suitably
+-- aligned to hold values of type @b@. The contents of the referenced
+-- memory area will be the same as of the original pointer up to the
+-- minimum of the original size and the size of values of type @b@.
+--
+-- If the argument to 'realloc' is 'nullPtr', 'realloc' behaves like
+-- 'malloc'.
+--
+realloc :: Storable b => Ptr a -> IO (Ptr b)
+realloc = doRealloc undefined
+ where
+ doRealloc :: Storable b' => b' -> Ptr a' -> IO (Ptr b')
+ doRealloc dummy ptr = let
+ size = fromIntegral (sizeOf dummy)
+ in
+ failWhenNULL "realloc" (_realloc ptr size)
+
+-- |Resize a memory area that was allocated with 'malloc' or 'mallocBytes'
+-- to the given size. The returned pointer may refer to an entirely
+-- different memory area, but will be sufficiently aligned for any of the
+-- basic foreign types that fits into a memory block of the given size.
+-- The contents of the referenced memory area will be the same as of
+-- the original pointer up to the minimum of the original size and the
+-- given size.
+--
+-- If the pointer argument to 'reallocBytes' is 'nullPtr', 'reallocBytes'
+-- behaves like 'malloc'. If the requested size is 0, 'reallocBytes'
+-- behaves like 'free'.
--
reallocBytes :: Ptr a -> Int -> IO (Ptr a)
+reallocBytes ptr 0 = do free ptr; return nullPtr
reallocBytes ptr size =
failWhenNULL "realloc" (_realloc ptr (fromIntegral size))
--- free malloc'ed storage
+-- |Free a block of memory that was allocated with 'malloc',
+-- 'mallocBytes', 'realloc', 'reallocBytes', 'Foreign.Marshal.Utils.new'
+-- or any of the @new@/X/ functions in "Foreign.Marshal.Array" or
+-- "Foreign.C.String".
--
free :: Ptr a -> IO ()
free = _free
failWhenNULL name f = do
addr <- f
if addr == nullPtr
-#ifdef __GLASGOW_HASKELL__
- then ioException (IOError Nothing ResourceExhausted name
- "out of memory" Nothing)
+#if __GLASGOW_HASKELL__
+ then ioError (IOError Nothing ResourceExhausted name
+ "out of memory" Nothing Nothing)
+#elif __HUGS__
+ then ioError (IOError Nothing ResourceExhausted name
+ "out of memory" Nothing)
#else
then ioError (userError (name++": out of memory"))
#endif
-- basic C routines needed for memory allocation
--
-foreign import ccall unsafe "malloc" _malloc :: CSize -> IO (Ptr a)
-foreign import ccall unsafe "realloc" _realloc :: Ptr a -> CSize -> IO (Ptr a)
-foreign import ccall unsafe "free" _free :: Ptr a -> IO ()
+foreign import ccall unsafe "stdlib.h malloc" _malloc :: CSize -> IO (Ptr a)
+foreign import ccall unsafe "stdlib.h realloc" _realloc :: Ptr a -> CSize -> IO (Ptr b)
+foreign import ccall unsafe "stdlib.h free" _free :: Ptr a -> IO ()
+
+-- | A pointer to a foreign function equivalent to 'free', which may be
+-- used as a finalizer (cf 'Foreign.ForeignPtr.ForeignPtr') for storage
+-- allocated with 'malloc', 'mallocBytes', 'realloc' or 'reallocBytes'.
+foreign import ccall unsafe "stdlib.h &free" finalizerFree :: FinalizerPtr a