-{-# OPTIONS -fno-implicit-prelude #-}
+{-# OPTIONS_GHC -XNoImplicitPrelude #-}
-----------------------------------------------------------------------------
-- |
-- Module : Foreign.C.Types
-----------------------------------------------------------------------------
module Foreign.C.Types
+ ( -- * Representations of C types
#ifndef __NHC__
- ( -- Integral types, instances of: Eq, Ord, Num, Read, Show, Enum,
- -- Typeable, Storable, Bounded, Real, Integral, Bits
- CChar, CSChar, CUChar
- , CShort, CUShort, CInt, CUInt
- , CLong, CULong
- , CPtrdiff, CSize, CWchar, CSigAtomic
+ -- $ctypes
+
+ -- ** Integral types
+ -- | These types are are represented as @newtype@s of
+ -- types in "Data.Int" and "Data.Word", and are instances of
+ -- 'Prelude.Eq', 'Prelude.Ord', 'Prelude.Num', 'Prelude.Read',
+ -- 'Prelude.Show', 'Prelude.Enum', 'Typeable', 'Storable',
+ -- 'Prelude.Bounded', 'Prelude.Real', 'Prelude.Integral' and
+ -- 'Bits'.
+ CChar, CSChar, CUChar
+ , CShort, CUShort, CInt, CUInt
+ , CLong, CULong
+ , CPtrdiff, CSize, CWchar, CSigAtomic
, CLLong, CULLong
- -- Numeric types, instances of: Eq, Ord, Num, Read, Show, Enum,
- -- Typeable, Storable
- , CClock, CTime
-
- -- Floating types, instances of: Eq, Ord, Num, Read, Show, Enum,
- -- Typeable, Storable, Real, Fractional, Floating, RealFrac,
- -- RealFloat
- , CFloat, CDouble, CLDouble
+ , CIntPtr, CUIntPtr
+ , CIntMax, CUIntMax
+
+ -- ** Numeric types
+ -- | These types are are represented as @newtype@s of basic
+ -- foreign types, and are instances of
+ -- 'Prelude.Eq', 'Prelude.Ord', 'Prelude.Num', 'Prelude.Read',
+ -- 'Prelude.Show', 'Prelude.Enum', 'Typeable' and 'Storable'.
+ , CClock, CTime
+
+ -- ** Floating types
+ -- | These types are are represented as @newtype@s of
+ -- 'Prelude.Float' and 'Prelude.Double', and are instances of
+ -- 'Prelude.Eq', 'Prelude.Ord', 'Prelude.Num', 'Prelude.Read',
+ -- 'Prelude.Show', 'Prelude.Enum', 'Typeable', 'Storable',
+ -- 'Prelude.Real', 'Prelude.Fractional', 'Prelude.Floating',
+ -- 'Prelude.RealFrac' and 'Prelude.RealFloat'.
+ , CFloat, CDouble, CLDouble
#else
- ( -- Exported non-abstractly in nhc98 to fix an interface file problem.
- CChar(..), CSChar(..), CUChar(..)
- , CShort(..), CUShort(..), CInt(..), CUInt(..)
- , CLong(..), CULong(..)
- , CPtrdiff(..), CSize(..), CWchar(..), CSigAtomic(..)
+ -- Exported non-abstractly in nhc98 to fix an interface file problem.
+ CChar(..), CSChar(..), CUChar(..)
+ , CShort(..), CUShort(..), CInt(..), CUInt(..)
+ , CLong(..), CULong(..)
+ , CPtrdiff(..), CSize(..), CWchar(..), CSigAtomic(..)
, CLLong(..), CULLong(..)
- , CClock(..), CTime(..)
- , CFloat(..), CDouble(..), CLDouble(..)
+ , CClock(..), CTime(..)
+ , CFloat(..), CDouble(..), CLDouble(..)
#endif
+ -- ** Other types
-- Instances of: Eq and Storable
- , CFile, CFpos, CJmpBuf
- ) where
+ , CFile, CFpos, CJmpBuf
+ ) where
-#ifdef __NHC__
-import NHC.FFI
- ( CChar(..), CSChar(..), CUChar(..)
- , CShort(..), CUShort(..), CInt(..), CUInt(..)
- , CLong(..), CULong(..), CLLong(..), CULLong(..)
- , CPtrdiff(..), CSize(..), CWchar(..), CSigAtomic(..)
- , CClock(..), CTime(..)
- , CFloat(..), CDouble(..), CLDouble(..)
- , CFile, CFpos, CJmpBuf
- , Storable(..)
- )
-#else
+#ifndef __NHC__
-import Foreign.C.TypesISO
-import Foreign.Storable
-import Data.Bits ( Bits(..) )
-import Data.Int ( Int8, Int16, Int32, Int64 )
-import Data.Word ( Word8, Word16, Word32, Word64 )
-import Data.Dynamic
+import {-# SOURCE #-} Foreign.Storable
+import Data.Bits ( Bits(..) )
+import Data.Int ( Int8, Int16, Int32, Int64 )
+import Data.Word ( Word8, Word16, Word32, Word64 )
+import {-# SOURCE #-} Data.Typeable
#ifdef __GLASGOW_HASKELL__
import GHC.Base
import GHC.Read
import GHC.Num
#else
-import Control.Monad
-import Foreign.Ptr
+import Control.Monad ( liftM )
#endif
-#include "Dynamic.h"
+#ifdef __HUGS__
+import Hugs.Ptr ( castPtr )
+#endif
+
+#include "HsBaseConfig.h"
#include "CTypes.h"
+-- | Haskell type representing the C @char@ type.
INTEGRAL_TYPE(CChar,tyConCChar,"CChar",HTYPE_CHAR)
+-- | Haskell type representing the C @signed char@ type.
INTEGRAL_TYPE(CSChar,tyConCSChar,"CSChar",HTYPE_SIGNED_CHAR)
+-- | Haskell type representing the C @unsigned char@ type.
INTEGRAL_TYPE(CUChar,tyConCUChar,"CUChar",HTYPE_UNSIGNED_CHAR)
+-- | Haskell type representing the C @short@ type.
INTEGRAL_TYPE(CShort,tyConCShort,"CShort",HTYPE_SHORT)
+-- | Haskell type representing the C @unsigned short@ type.
INTEGRAL_TYPE(CUShort,tyConCUShort,"CUShort",HTYPE_UNSIGNED_SHORT)
+-- | Haskell type representing the C @int@ type.
INTEGRAL_TYPE(CInt,tyConCInt,"CInt",HTYPE_INT)
+-- | Haskell type representing the C @unsigned int@ type.
INTEGRAL_TYPE(CUInt,tyConCUInt,"CUInt",HTYPE_UNSIGNED_INT)
+-- | Haskell type representing the C @long@ type.
INTEGRAL_TYPE(CLong,tyConCLong,"CLong",HTYPE_LONG)
+-- | Haskell type representing the C @unsigned long@ type.
INTEGRAL_TYPE(CULong,tyConCULong,"CULong",HTYPE_UNSIGNED_LONG)
+-- | Haskell type representing the C @long long@ type.
INTEGRAL_TYPE(CLLong,tyConCLLong,"CLLong",HTYPE_LONG_LONG)
+-- | Haskell type representing the C @unsigned long long@ type.
INTEGRAL_TYPE(CULLong,tyConCULLong,"CULLong",HTYPE_UNSIGNED_LONG_LONG)
{-# RULES
"fromIntegral/CULLong->a" fromIntegral = \(CULLong x) -> fromIntegral x
#-}
+-- | Haskell type representing the C @float@ type.
FLOATING_TYPE(CFloat,tyConCFloat,"CFloat",HTYPE_FLOAT)
+-- | Haskell type representing the C @double@ type.
FLOATING_TYPE(CDouble,tyConCDouble,"CDouble",HTYPE_DOUBLE)
-- HACK: Currently no long double in the FFI, so we simply re-use double
+-- | Haskell type representing the C @long double@ type.
FLOATING_TYPE(CLDouble,tyConCLDouble,"CLDouble",HTYPE_DOUBLE)
+{-# RULES
+"realToFrac/a->CFloat" realToFrac = \x -> CFloat (realToFrac x)
+"realToFrac/a->CDouble" realToFrac = \x -> CDouble (realToFrac x)
+"realToFrac/a->CLDouble" realToFrac = \x -> CLDouble (realToFrac x)
+
+"realToFrac/CFloat->a" realToFrac = \(CFloat x) -> realToFrac x
+"realToFrac/CDouble->a" realToFrac = \(CDouble x) -> realToFrac x
+"realToFrac/CLDouble->a" realToFrac = \(CLDouble x) -> realToFrac x
+ #-}
+
+-- | Haskell type representing the C @ptrdiff_t@ type.
+INTEGRAL_TYPE(CPtrdiff,tyConCPtrdiff,"CPtrdiff",HTYPE_PTRDIFF_T)
+-- | Haskell type representing the C @size_t@ type.
+INTEGRAL_TYPE(CSize,tyConCSize,"CSize",HTYPE_SIZE_T)
+-- | Haskell type representing the C @wchar_t@ type.
+INTEGRAL_TYPE(CWchar,tyConCWchar,"CWchar",HTYPE_WCHAR_T)
+-- | Haskell type representing the C @sig_atomic_t@ type.
+INTEGRAL_TYPE(CSigAtomic,tyConCSigAtomic,"CSigAtomic",HTYPE_SIG_ATOMIC_T)
+
+{-# RULES
+"fromIntegral/a->CPtrdiff" fromIntegral = \x -> CPtrdiff (fromIntegral x)
+"fromIntegral/a->CSize" fromIntegral = \x -> CSize (fromIntegral x)
+"fromIntegral/a->CWchar" fromIntegral = \x -> CWchar (fromIntegral x)
+"fromIntegral/a->CSigAtomic" fromIntegral = \x -> CSigAtomic (fromIntegral x)
+
+"fromIntegral/CPtrdiff->a" fromIntegral = \(CPtrdiff x) -> fromIntegral x
+"fromIntegral/CSize->a" fromIntegral = \(CSize x) -> fromIntegral x
+"fromIntegral/CWchar->a" fromIntegral = \(CWchar x) -> fromIntegral x
+"fromIntegral/CSigAtomic->a" fromIntegral = \(CSigAtomic x) -> fromIntegral x
+ #-}
+
+-- | Haskell type representing the C @clock_t@ type.
+ARITHMETIC_TYPE(CClock,tyConCClock,"CClock",HTYPE_CLOCK_T)
+-- | Haskell type representing the C @time_t@ type.
+--
+-- To convert to a @Data.Time.UTCTime@, use the following formula:
+--
+-- > posixSecondsToUTCTime (realToFrac :: POSIXTime)
+--
+ARITHMETIC_TYPE(CTime,tyConCTime,"CTime",HTYPE_TIME_T)
+
+-- FIXME: Implement and provide instances for Eq and Storable
+-- | Haskell type representing the C @FILE@ type.
+data CFile = CFile
+-- | Haskell type representing the C @fpos_t@ type.
+data CFpos = CFpos
+-- | Haskell type representing the C @jmp_buf@ type.
+data CJmpBuf = CJmpBuf
+
+INTEGRAL_TYPE(CIntPtr,tyConCIntPtr,"CIntPtr",HTYPE_INTPTR_T)
+INTEGRAL_TYPE(CUIntPtr,tyConCUIntPtr,"CUIntPtr",HTYPE_UINTPTR_T)
+INTEGRAL_TYPE(CIntMax,tyConCIntMax,"CIntMax",HTYPE_INTMAX_T)
+INTEGRAL_TYPE(CUIntMax,tyConCUIntMax,"CUIntMax",HTYPE_UINTMAX_T)
+
+{-# RULES
+"fromIntegral/a->CIntPtr" fromIntegral = \x -> CIntPtr (fromIntegral x)
+"fromIntegral/a->CUIntPtr" fromIntegral = \x -> CUIntPtr (fromIntegral x)
+"fromIntegral/a->CIntMax" fromIntegral = \x -> CIntMax (fromIntegral x)
+"fromIntegral/a->CUIntMax" fromIntegral = \x -> CUIntMax (fromIntegral x)
+ #-}
+
+-- C99 types which are still missing include:
+-- wint_t, wctrans_t, wctype_t
+
+{- $ctypes
+
+These types are needed to accurately represent C function prototypes,
+in order to access C library interfaces in Haskell. The Haskell system
+is not required to represent those types exactly as C does, but the
+following guarantees are provided concerning a Haskell type @CT@
+representing a C type @t@:
+
+* If a C function prototype has @t@ as an argument or result type, the
+ use of @CT@ in the corresponding position in a foreign declaration
+ permits the Haskell program to access the full range of values encoded
+ by the C type; and conversely, any Haskell value for @CT@ has a valid
+ representation in C.
+
+* @'sizeOf' ('Prelude.undefined' :: CT)@ will yield the same value as
+ @sizeof (t)@ in C.
+
+* @'alignment' ('Prelude.undefined' :: CT)@ matches the alignment
+ constraint enforced by the C implementation for @t@.
+
+* The members 'peek' and 'poke' of the 'Storable' class map all values
+ of @CT@ to the corresponding value of @t@ and vice versa.
+
+* When an instance of 'Prelude.Bounded' is defined for @CT@, the values
+ of 'Prelude.minBound' and 'Prelude.maxBound' coincide with @t_MIN@
+ and @t_MAX@ in C.
+
+* When an instance of 'Prelude.Eq' or 'Prelude.Ord' is defined for @CT@,
+ the predicates defined by the type class implement the same relation
+ as the corresponding predicate in C on @t@.
+
+* When an instance of 'Prelude.Num', 'Prelude.Read', 'Prelude.Integral',
+ 'Prelude.Fractional', 'Prelude.Floating', 'Prelude.RealFrac', or
+ 'Prelude.RealFloat' is defined for @CT@, the arithmetic operations
+ defined by the type class implement the same function as the
+ corresponding arithmetic operations (if available) in C on @t@.
+
+* When an instance of 'Bits' is defined for @CT@, the bitwise operation
+ defined by the type class implement the same function as the
+ corresponding bitwise operation in C on @t@.
+
+-}
+
+#else /* __NHC__ */
+
+import NHC.FFI
+ ( CChar(..), CSChar(..), CUChar(..)
+ , CShort(..), CUShort(..), CInt(..), CUInt(..)
+ , CLong(..), CULong(..), CLLong(..), CULLong(..)
+ , CPtrdiff(..), CSize(..), CWchar(..), CSigAtomic(..)
+ , CClock(..), CTime(..)
+ , CFloat(..), CDouble(..), CLDouble(..)
+ , CFile, CFpos, CJmpBuf
+ , Storable(..)
+ )
+import Data.Bits
+import NHC.SizedTypes
+
+#define INSTANCE_BITS(T) \
+instance Bits T where { \
+ (T x) .&. (T y) = T (x .&. y) ; \
+ (T x) .|. (T y) = T (x .|. y) ; \
+ (T x) `xor` (T y) = T (x `xor` y) ; \
+ complement (T x) = T (complement x) ; \
+ shift (T x) n = T (shift x n) ; \
+ rotate (T x) n = T (rotate x n) ; \
+ bit n = T (bit n) ; \
+ setBit (T x) n = T (setBit x n) ; \
+ clearBit (T x) n = T (clearBit x n) ; \
+ complementBit (T x) n = T (complementBit x n) ; \
+ testBit (T x) n = testBit x n ; \
+ bitSize (T x) = bitSize x ; \
+ isSigned (T x) = isSigned x }
+
+INSTANCE_BITS(CChar)
+INSTANCE_BITS(CSChar)
+INSTANCE_BITS(CUChar)
+INSTANCE_BITS(CShort)
+INSTANCE_BITS(CUShort)
+INSTANCE_BITS(CInt)
+INSTANCE_BITS(CUInt)
+INSTANCE_BITS(CLong)
+INSTANCE_BITS(CULong)
+INSTANCE_BITS(CLLong)
+INSTANCE_BITS(CULLong)
+INSTANCE_BITS(CPtrdiff)
+INSTANCE_BITS(CWchar)
+INSTANCE_BITS(CSigAtomic)
+INSTANCE_BITS(CSize)
+
#endif