+\begin{code}
{-# OPTIONS -cpp #-}
+{-# OPTIONS_GHC -O #-}
+-- We always optimise this, otherwise performance of a non-optimised
+-- compiler is severely affected
+
--
-- (c) The University of Glasgow 2002-2006
--
-- Unboxed mutable Ints
-\begin{code}
module FastMutInt(
FastMutInt, newFastMutInt,
- readFastMutInt, writeFastMutInt
+ readFastMutInt, writeFastMutInt,
+
+ FastMutPtr, newFastMutPtr,
+ readFastMutPtr, writeFastMutPtr
) where
#ifdef __GLASGOW_HASKELL__
-#include "MachDeps.h"
+#include "../includes/MachDeps.h"
#ifndef SIZEOF_HSINT
#define SIZEOF_HSINT INT_SIZE_IN_BYTES
#endif
import GHC.Base
-import GHC.IOBase
+import GHC.Ptr
+
+#if __GLASGOW_HASKELL__ >= 611
+-- import GHC.IO ( IO(..) )
+#else
+import GHC.IOBase ( IO(..) )
+#endif
#else /* ! __GLASGOW_HASKELL__ */
newFastMutInt :: IO FastMutInt
readFastMutInt :: FastMutInt -> IO Int
writeFastMutInt :: FastMutInt -> Int -> IO ()
+
+newFastMutPtr :: IO FastMutPtr
+readFastMutPtr :: FastMutPtr -> IO (Ptr a)
+writeFastMutPtr :: FastMutPtr -> Ptr a -> IO ()
\end{code}
\begin{code}
newFastMutInt = IO $ \s ->
case newByteArray# size s of { (# s, arr #) ->
(# s, FastMutInt arr #) }
- where I# size = SIZEOF_HSINT
+ where !(I# size) = SIZEOF_HSINT
readFastMutInt (FastMutInt arr) = IO $ \s ->
case readIntArray# arr 0# s of { (# s, i #) ->
writeFastMutInt (FastMutInt arr) (I# i) = IO $ \s ->
case writeIntArray# arr 0# i s of { s ->
(# s, () #) }
+
+data FastMutPtr = FastMutPtr (MutableByteArray# RealWorld)
+
+newFastMutPtr = IO $ \s ->
+ case newByteArray# size s of { (# s, arr #) ->
+ (# s, FastMutPtr arr #) }
+ where !(I# size) = SIZEOF_VOID_P
+
+readFastMutPtr (FastMutPtr arr) = IO $ \s ->
+ case readAddrArray# arr 0# s of { (# s, i #) ->
+ (# s, Ptr i #) }
+
+writeFastMutPtr (FastMutPtr arr) (Ptr i) = IO $ \s ->
+ case writeAddrArray# arr 0# i s of { s ->
+ (# s, () #) }
#else /* ! __GLASGOW_HASKELL__ */
--maybe someday we could use
--http://haskell.org/haskellwiki/Library/ArrayRef
-- FastMutInt is strict in the value it contains.
writeFastMutInt (FastMutInt ioRefInt) i = i `seq` writeIORef ioRefInt i
+
+
+newtype FastMutPtr = FastMutPtr (IORef (Ptr ()))
+
+-- If any default value was chosen, it surely would be 0,
+-- so we will use that since IORef requires a default value.
+-- Or maybe it would be more interesting to package an error,
+-- assuming nothing relies on being able to read a bogus Ptr?
+-- That could interfere with its strictness for smart optimizers
+-- (are they allowed to optimize a 'newtype' that way?) ...
+-- Well, maybe that can be added (in DEBUG?) later.
+newFastMutPtr = fmap FastMutPtr (newIORef (castPtr nullPtr))
+
+readFastMutPtr (FastMutPtr ioRefPtr) = readIORef ioRefPtr
+
+-- FastMutPtr is strict in the value it contains.
+writeFastMutPtr (FastMutPtr ioRefPtr) i = i `seq` writeIORef ioRefPtr i
#endif
\end{code}