{-# LANGUAGE CPP #-} {-# LANGUAGE DerivingStrategies #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE MagicHash #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE Trustworthy #-} ----------------------------------------------------------------------------- -- | -- Module : Foreign.Ptr -- Copyright : (c) The FFI task force 2001 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : ffi@haskell.org -- Stability : provisional -- Portability : portable -- -- This module provides typed pointers to foreign data. It is part -- of the Foreign Function Interface (FFI) and will normally be -- imported via the "Foreign" module. -- ----------------------------------------------------------------------------- module Foreign.Ptr ( -- * Data pointers Ptr, nullPtr, castPtr, plusPtr, alignPtr, minusPtr, -- * Function pointers FunPtr, nullFunPtr, castFunPtr, castFunPtrToPtr, castPtrToFunPtr, freeHaskellFunPtr, -- Free the function pointer created by foreign export dynamic. -- * Integral types with lossless conversion to and from pointers IntPtr(..), ptrToIntPtr, intPtrToPtr, WordPtr(..), ptrToWordPtr, wordPtrToPtr -- See Note [Exporting constructors of marshallable foreign types] -- for why the constructors for IntPtr and WordPtr are exported. ) where import GHC.Ptr import GHC.Base import GHC.Num import GHC.Read import GHC.Real import GHC.Show import GHC.Enum import Data.Bits import Foreign.Storable ( Storable(..) ) -- | Release the storage associated with the given 'FunPtr', which -- must have been obtained from a wrapper stub. This should be called -- whenever the return value from a foreign import wrapper function is -- no longer required; otherwise, the storage it uses will leak. foreign import ccall unsafe "freeHaskellFunctionPtr" freeHaskellFunPtr :: FunPtr a -> IO () #include "HsBaseConfig.h" #include "CTypes.h" -- | An unsigned integral type that can be losslessly converted to and from -- @Ptr@. This type is also compatible with the C99 type @uintptr_t@, and -- can be marshalled to and from that type safely. INTEGRAL_TYPE(WordPtr,Word) -- Word and Int are guaranteed pointer-sized in GHC -- | A signed integral type that can be losslessly converted to and from -- @Ptr@. This type is also compatible with the C99 type @intptr_t@, and -- can be marshalled to and from that type safely. INTEGRAL_TYPE(IntPtr,Int) -- Word and Int are guaranteed pointer-sized in GHC -- | casts a @Ptr@ to a @WordPtr@ ptrToWordPtr :: Ptr a -> WordPtr ptrToWordPtr :: forall a. Ptr a -> WordPtr ptrToWordPtr (Ptr Addr# a#) = Word -> WordPtr WordPtr (Word# -> Word W# (Int# -> Word# int2Word# (Addr# -> Int# addr2Int# Addr# a#))) -- | casts a @WordPtr@ to a @Ptr@ wordPtrToPtr :: WordPtr -> Ptr a wordPtrToPtr :: forall a. WordPtr -> Ptr a wordPtrToPtr (WordPtr (W# Word# w#)) = Addr# -> Ptr a forall a. Addr# -> Ptr a Ptr (Int# -> Addr# int2Addr# (Word# -> Int# word2Int# Word# w#)) -- | casts a @Ptr@ to an @IntPtr@ ptrToIntPtr :: Ptr a -> IntPtr ptrToIntPtr :: forall a. Ptr a -> IntPtr ptrToIntPtr (Ptr Addr# a#) = Int -> IntPtr IntPtr (Int# -> Int I# (Addr# -> Int# addr2Int# Addr# a#)) -- | casts an @IntPtr@ to a @Ptr@ intPtrToPtr :: IntPtr -> Ptr a intPtrToPtr :: forall a. IntPtr -> Ptr a intPtrToPtr (IntPtr (I# Int# i#)) = Addr# -> Ptr a forall a. Addr# -> Ptr a Ptr (Int# -> Addr# int2Addr# Int# i#) {- Note [Exporting constructors of marshallable foreign types] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ One might expect that IntPtr, WordPtr, and the other newtypes in the Foreign.C.Types and System.Posix.Types modules to be abstract, but this is not the case in GHC (see #5229 and #11983). In fact, we deliberately export the constructors for these datatypes in order to satisfy a requirement of the Haskell 2010 Report (§ 8.4.2) that if a newtype is used in a foreign declaration, then its constructor must be visible. This requirement was motivated by the fact that using a type in a foreign declaration necessarily exposes some information about the type to the user, so being able to use abstract types in a foreign declaration breaks their abstraction (see #3008). As a result, the constructors of all FFI-related newtypes in base must be exported in order to be useful for FFI programming, even at the cost of exposing their underlying, architecture-dependent types. -}