{-# LANGUAGE Trustworthy #-} {-# LANGUAGE CPP, NoImplicitPrelude #-} ----------------------------------------------------------------------------- -- | -- Module : Foreign.C.String -- Copyright : (c) The FFI task force 2001 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : ffi@haskell.org -- Stability : provisional -- Portability : portable -- -- Utilities for primitive marshalling of C strings. -- -- The marshalling converts each Haskell character, representing a Unicode -- code point, to one or more bytes in a manner that, by default, is -- determined by the current locale. As a consequence, no guarantees -- can be made about the relative length of a Haskell string and its -- corresponding C string, and therefore all the marshalling routines -- include memory allocation. The translation between Unicode and the -- encoding of the current locale may be lossy. -- ----------------------------------------------------------------------------- module Foreign.C.String ( -- representation of strings in C -- * C strings CString, CStringLen, -- ** Using a locale-dependent encoding #ifndef __GLASGOW_HASKELL__ -- | Currently these functions are identical to their @CAString@ counterparts; -- eventually they will use an encoding determined by the current locale. #else -- | These functions are different from their @CAString@ counterparts -- in that they will use an encoding determined by the current locale, -- rather than always assuming ASCII. #endif -- conversion of C strings into Haskell strings -- peekCString, peekCStringLen, -- conversion of Haskell strings into C strings -- newCString, newCStringLen, -- conversion of Haskell strings into C strings using temporary storage -- withCString, withCStringLen, charIsRepresentable, -- ** Using 8-bit characters -- | These variants of the above functions are for use with C libraries -- that are ignorant of Unicode. These functions should be used with -- care, as a loss of information can occur. castCharToCChar, castCCharToChar, castCharToCUChar, castCUCharToChar, castCharToCSChar, castCSCharToChar, peekCAString, peekCAStringLen, newCAString, newCAStringLen, withCAString, withCAStringLen, -- * C wide strings -- | These variants of the above functions are for use with C libraries -- that encode Unicode using the C @wchar_t@ type in a system-dependent -- way. The only encodings supported are -- -- * UTF-32 (the C compiler defines @__STDC_ISO_10646__@), or -- -- * UTF-16 (as used on Windows systems). CWString, CWStringLen, peekCWString, peekCWStringLen, newCWString, newCWStringLen, withCWString, withCWStringLen, ) where import Foreign.Marshal.Array import Foreign.C.Types import Foreign.Ptr import Foreign.Storable import Data.Word #ifdef __GLASGOW_HASKELL__ import Control.Monad import GHC.Char import GHC.List import GHC.Real import GHC.Num import GHC.Base import {-# SOURCE #-} GHC.IO.Encoding import qualified GHC.Foreign as GHC #else import Data.Char ( chr, ord ) #define unsafeChr chr #endif ----------------------------------------------------------------------------- -- Strings -- representation of strings in C -- ------------------------------ -- | A C string is a reference to an array of C characters terminated by NUL. type CString = Ptr CChar -- | A string with explicit length information in bytes instead of a -- terminating NUL (allowing NUL characters in the middle of the string). type CStringLen = (Ptr CChar, Int) -- exported functions -- ------------------ -- -- * the following routines apply the default conversion when converting the -- C-land character encoding into the Haskell-land character encoding -- | Marshal a NUL terminated C string into a Haskell string. -- peekCString :: CString -> IO String #ifndef __GLASGOW_HASKELL__ peekCString = peekCAString #else peekCString s = getForeignEncoding >>= flip GHC.peekCString s #endif -- | Marshal a C string with explicit length into a Haskell string. -- peekCStringLen :: CStringLen -> IO String #ifndef __GLASGOW_HASKELL__ peekCStringLen = peekCAStringLen #else peekCStringLen s = getForeignEncoding >>= flip GHC.peekCStringLen s #endif -- | Marshal a Haskell string into a NUL terminated C string. -- -- * the Haskell string may /not/ contain any NUL characters -- -- * new storage is allocated for the C string and must be -- explicitly freed using 'Foreign.Marshal.Alloc.free' or -- 'Foreign.Marshal.Alloc.finalizerFree'. -- newCString :: String -> IO CString #ifndef __GLASGOW_HASKELL__ newCString = newCAString #else newCString s = getForeignEncoding >>= flip GHC.newCString s #endif -- | Marshal a Haskell string into a C string (ie, character array) with -- explicit length information. -- -- * new storage is allocated for the C string and must be -- explicitly freed using 'Foreign.Marshal.Alloc.free' or -- 'Foreign.Marshal.Alloc.finalizerFree'. -- newCStringLen :: String -> IO CStringLen #ifndef __GLASGOW_HASKELL__ newCStringLen = newCAStringLen #else newCStringLen s = getForeignEncoding >>= flip GHC.newCStringLen s #endif -- | Marshal a Haskell string into a NUL terminated C string using temporary -- storage. -- -- * the Haskell string may /not/ contain any NUL characters -- -- * the memory is freed when the subcomputation terminates (either -- normally or via an exception), so the pointer to the temporary -- storage must /not/ be used after this. -- withCString :: String -> (CString -> IO a) -> IO a #ifndef __GLASGOW_HASKELL__ withCString = withCAString #else withCString s f = getForeignEncoding >>= \enc -> GHC.withCString enc s f #endif -- | Marshal a Haskell string into a C string (ie, character array) -- in temporary storage, with explicit length information. -- -- * the memory is freed when the subcomputation terminates (either -- normally or via an exception), so the pointer to the temporary -- storage must /not/ be used after this. -- withCStringLen :: String -> (CStringLen -> IO a) -> IO a #ifndef __GLASGOW_HASKELL__ withCStringLen = withCAStringLen #else withCStringLen s f = getForeignEncoding >>= \enc -> GHC.withCStringLen enc s f #endif #ifndef __GLASGOW_HASKELL__ -- | Determines whether a character can be accurately encoded in a 'CString'. -- Unrepresentable characters are converted to @\'?\'@. -- -- Currently only Latin-1 characters are representable. charIsRepresentable :: Char -> IO Bool charIsRepresentable c = return (ord c < 256) #else -- -- | Determines whether a character can be accurately encoded in a 'CString'. -- -- Unrepresentable characters are converted to '?' or their nearest visual equivalent. charIsRepresentable :: Char -> IO Bool charIsRepresentable c = getForeignEncoding >>= flip GHC.charIsRepresentable c #endif -- single byte characters -- ---------------------- -- -- ** NOTE: These routines don't handle conversions! ** -- | Convert a C byte, representing a Latin-1 character, to the corresponding -- Haskell character. castCCharToChar :: CChar -> Char castCCharToChar ch = unsafeChr (fromIntegral (fromIntegral ch :: Word8)) -- | Convert a Haskell character to a C character. -- This function is only safe on the first 256 characters. castCharToCChar :: Char -> CChar castCharToCChar ch = fromIntegral (ord ch) -- | Convert a C @unsigned char@, representing a Latin-1 character, to -- the corresponding Haskell character. castCUCharToChar :: CUChar -> Char castCUCharToChar ch = unsafeChr (fromIntegral (fromIntegral ch :: Word8)) -- | Convert a Haskell character to a C @unsigned char@. -- This function is only safe on the first 256 characters. castCharToCUChar :: Char -> CUChar castCharToCUChar ch = fromIntegral (ord ch) -- | Convert a C @signed char@, representing a Latin-1 character, to the -- corresponding Haskell character. castCSCharToChar :: CSChar -> Char castCSCharToChar ch = unsafeChr (fromIntegral (fromIntegral ch :: Word8)) -- | Convert a Haskell character to a C @signed char@. -- This function is only safe on the first 256 characters. castCharToCSChar :: Char -> CSChar castCharToCSChar ch = fromIntegral (ord ch) -- | Marshal a NUL terminated C string into a Haskell string. -- peekCAString :: CString -> IO String #ifndef __GLASGOW_HASKELL__ peekCAString cp = do cs <- peekArray0 nUL cp return (cCharsToChars cs) #else peekCAString cp = do l <- lengthArray0 nUL cp if l <= 0 then return "" else loop "" (l-1) where loop s i = do xval <- peekElemOff cp i let val = castCCharToChar xval val `seq` if i <= 0 then return (val:s) else loop (val:s) (i-1) #endif -- | Marshal a C string with explicit length into a Haskell string. -- peekCAStringLen :: CStringLen -> IO String #ifndef __GLASGOW_HASKELL__ peekCAStringLen (cp, len) = do cs <- peekArray len cp return (cCharsToChars cs) #else peekCAStringLen (cp, len) | len <= 0 = return "" -- being (too?) nice. | otherwise = loop [] (len-1) where loop acc i = do xval <- peekElemOff cp i let val = castCCharToChar xval -- blow away the coercion ASAP. if (val `seq` (i == 0)) then return (val:acc) else loop (val:acc) (i-1) #endif -- | Marshal a Haskell string into a NUL terminated C string. -- -- * the Haskell string may /not/ contain any NUL characters -- -- * new storage is allocated for the C string and must be -- explicitly freed using 'Foreign.Marshal.Alloc.free' or -- 'Foreign.Marshal.Alloc.finalizerFree'. -- newCAString :: String -> IO CString #ifndef __GLASGOW_HASKELL__ newCAString = newArray0 nUL . charsToCChars #else newCAString str = do ptr <- mallocArray0 (length str) let go [] n = pokeElemOff ptr n nUL go (c:cs) n = do pokeElemOff ptr n (castCharToCChar c); go cs (n+1) go str 0 return ptr #endif -- | Marshal a Haskell string into a C string (ie, character array) with -- explicit length information. -- -- * new storage is allocated for the C string and must be -- explicitly freed using 'Foreign.Marshal.Alloc.free' or -- 'Foreign.Marshal.Alloc.finalizerFree'. -- newCAStringLen :: String -> IO CStringLen #ifndef __GLASGOW_HASKELL__ newCAStringLen str = newArrayLen (charsToCChars str) #else newCAStringLen str = do ptr <- mallocArray0 len let go [] n = n `seq` return () -- make it strict in n go (c:cs) n = do pokeElemOff ptr n (castCharToCChar c); go cs (n+1) go str 0 return (ptr, len) where len = length str #endif -- | Marshal a Haskell string into a NUL terminated C string using temporary -- storage. -- -- * the Haskell string may /not/ contain any NUL characters -- -- * the memory is freed when the subcomputation terminates (either -- normally or via an exception), so the pointer to the temporary -- storage must /not/ be used after this. -- withCAString :: String -> (CString -> IO a) -> IO a #ifndef __GLASGOW_HASKELL__ withCAString = withArray0 nUL . charsToCChars #else withCAString str f = allocaArray0 (length str) $ \ptr -> let go [] n = pokeElemOff ptr n nUL go (c:cs) n = do pokeElemOff ptr n (castCharToCChar c); go cs (n+1) in do go str 0 f ptr #endif -- | Marshal a Haskell string into a C string (ie, character array) -- in temporary storage, with explicit length information. -- -- * the memory is freed when the subcomputation terminates (either -- normally or via an exception), so the pointer to the temporary -- storage must /not/ be used after this. -- withCAStringLen :: String -> (CStringLen -> IO a) -> IO a withCAStringLen str f = #ifndef __GLASGOW_HASKELL__ withArrayLen (charsToCChars str) $ \ len ptr -> f (ptr, len) #else allocaArray len $ \ptr -> let go [] n = n `seq` return () -- make it strict in n go (c:cs) n = do pokeElemOff ptr n (castCharToCChar c); go cs (n+1) in do go str 0 f (ptr,len) where len = length str #endif -- auxiliary definitions -- ---------------------- -- C's end of string character -- nUL :: CChar nUL = 0 -- allocate an array to hold the list and pair it with the number of elements newArrayLen :: Storable a => [a] -> IO (Ptr a, Int) newArrayLen xs = do a <- newArray xs return (a, length xs) #ifndef __GLASGOW_HASKELL__ -- cast [CChar] to [Char] -- cCharsToChars :: [CChar] -> [Char] cCharsToChars xs = map castCCharToChar xs -- cast [Char] to [CChar] -- charsToCChars :: [Char] -> [CChar] charsToCChars xs = map castCharToCChar xs #endif ----------------------------------------------------------------------------- -- Wide strings -- representation of wide strings in C -- ----------------------------------- -- | A C wide string is a reference to an array of C wide characters -- terminated by NUL. type CWString = Ptr CWchar -- | A wide character string with explicit length information in 'CWchar's -- instead of a terminating NUL (allowing NUL characters in the middle -- of the string). type CWStringLen = (Ptr CWchar, Int) -- | Marshal a NUL terminated C wide string into a Haskell string. -- peekCWString :: CWString -> IO String peekCWString cp = do cs <- peekArray0 wNUL cp return (cWcharsToChars cs) -- | Marshal a C wide string with explicit length into a Haskell string. -- peekCWStringLen :: CWStringLen -> IO String peekCWStringLen (cp, len) = do cs <- peekArray len cp return (cWcharsToChars cs) -- | Marshal a Haskell string into a NUL terminated C wide string. -- -- * the Haskell string may /not/ contain any NUL characters -- -- * new storage is allocated for the C wide string and must -- be explicitly freed using 'Foreign.Marshal.Alloc.free' or -- 'Foreign.Marshal.Alloc.finalizerFree'. -- newCWString :: String -> IO CWString newCWString = newArray0 wNUL . charsToCWchars -- | Marshal a Haskell string into a C wide string (ie, wide character array) -- with explicit length information. -- -- * new storage is allocated for the C wide string and must -- be explicitly freed using 'Foreign.Marshal.Alloc.free' or -- 'Foreign.Marshal.Alloc.finalizerFree'. -- newCWStringLen :: String -> IO CWStringLen newCWStringLen str = newArrayLen (charsToCWchars str) -- | Marshal a Haskell string into a NUL terminated C wide string using -- temporary storage. -- -- * the Haskell string may /not/ contain any NUL characters -- -- * the memory is freed when the subcomputation terminates (either -- normally or via an exception), so the pointer to the temporary -- storage must /not/ be used after this. -- withCWString :: String -> (CWString -> IO a) -> IO a withCWString = withArray0 wNUL . charsToCWchars -- | Marshal a Haskell string into a C wide string (i.e. wide -- character array) in temporary storage, with explicit length -- information. -- -- * the memory is freed when the subcomputation terminates (either -- normally or via an exception), so the pointer to the temporary -- storage must /not/ be used after this. -- withCWStringLen :: String -> (CWStringLen -> IO a) -> IO a withCWStringLen str f = withArrayLen (charsToCWchars str) $ \ len ptr -> f (ptr, len) -- auxiliary definitions -- ---------------------- wNUL :: CWchar wNUL = 0 cWcharsToChars :: [CWchar] -> [Char] charsToCWchars :: [Char] -> [CWchar] #ifdef mingw32_HOST_OS -- On Windows, wchar_t is 16 bits wide and CWString uses the UTF-16 encoding. -- coding errors generate Chars in the surrogate range cWcharsToChars = map chr . fromUTF16 . map fromIntegral where fromUTF16 (c1:c2:wcs) | 0xd800 <= c1 && c1 <= 0xdbff && 0xdc00 <= c2 && c2 <= 0xdfff = ((c1 - 0xd800)*0x400 + (c2 - 0xdc00) + 0x10000) : fromUTF16 wcs fromUTF16 (c:wcs) = c : fromUTF16 wcs fromUTF16 [] = [] charsToCWchars = foldr utf16Char [] . map ord where utf16Char c wcs | c < 0x10000 = fromIntegral c : wcs | otherwise = let c' = c - 0x10000 in fromIntegral (c' `div` 0x400 + 0xd800) : fromIntegral (c' `mod` 0x400 + 0xdc00) : wcs #else /* !mingw32_HOST_OS */ cWcharsToChars xs = map castCWcharToChar xs charsToCWchars xs = map castCharToCWchar xs -- These conversions only make sense if __STDC_ISO_10646__ is defined -- (meaning that wchar_t is ISO 10646, aka Unicode) castCWcharToChar :: CWchar -> Char castCWcharToChar ch = chr (fromIntegral ch ) castCharToCWchar :: Char -> CWchar castCharToCWchar ch = fromIntegral (ord ch) #endif /* !mingw32_HOST_OS */