Copyright | (c) The FFI task force 2001 |
---|---|
License | BSD-style (see the file libraries/base/LICENSE) |
Maintainer | ffi@haskell.org |
Stability | provisional |
Portability | portable |
Safe Haskell | Trustworthy |
Language | Haskell2010 |
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.
- type CString = Ptr CChar
- type CStringLen = (Ptr CChar, Int)
- peekCString :: CString -> IO String
- peekCStringLen :: CStringLen -> IO String
- newCString :: String -> IO CString
- newCStringLen :: String -> IO CStringLen
- withCString :: String -> (CString -> IO a) -> IO a
- withCStringLen :: String -> (CStringLen -> IO a) -> IO a
- charIsRepresentable :: Char -> IO Bool
- castCharToCChar :: Char -> CChar
- castCCharToChar :: CChar -> Char
- castCharToCUChar :: Char -> CUChar
- castCUCharToChar :: CUChar -> Char
- castCharToCSChar :: Char -> CSChar
- castCSCharToChar :: CSChar -> Char
- peekCAString :: CString -> IO String
- peekCAStringLen :: CStringLen -> IO String
- newCAString :: String -> IO CString
- newCAStringLen :: String -> IO CStringLen
- withCAString :: String -> (CString -> IO a) -> IO a
- withCAStringLen :: String -> (CStringLen -> IO a) -> IO a
- type CWString = Ptr CWchar
- type CWStringLen = (Ptr CWchar, Int)
- peekCWString :: CWString -> IO String
- peekCWStringLen :: CWStringLen -> IO String
- newCWString :: String -> IO CWString
- newCWStringLen :: String -> IO CWStringLen
- withCWString :: String -> (CWString -> IO a) -> IO a
- withCWStringLen :: String -> (CWStringLen -> IO a) -> IO a
C strings
type CStringLen = (Ptr CChar, Int) #
A string with explicit length information in bytes instead of a terminating NUL (allowing NUL characters in the middle of the string).
Using a locale-dependent encoding
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.
peekCString :: CString -> IO String #
Marshal a NUL terminated C string into a Haskell string.
peekCStringLen :: CStringLen -> IO String #
Marshal a C string with explicit length into a Haskell string.
newCString :: String -> IO CString #
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
free
orfinalizerFree
.
newCStringLen :: String -> IO CStringLen #
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
free
orfinalizerFree
.
withCString :: String -> (CString -> IO a) -> IO a #
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.
withCStringLen :: String -> (CStringLen -> IO a) -> IO a #
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.
charIsRepresentable :: Char -> IO Bool #
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 :: Char -> CChar #
Convert a Haskell character to a C character. This function is only safe on the first 256 characters.
castCCharToChar :: CChar -> Char #
Convert a C byte, representing a Latin-1 character, to the corresponding Haskell character.
castCharToCUChar :: Char -> CUChar #
Convert a Haskell character to a C unsigned char
.
This function is only safe on the first 256 characters.
castCUCharToChar :: CUChar -> Char #
Convert a C unsigned char
, representing a Latin-1 character, to
the corresponding Haskell character.
castCharToCSChar :: Char -> CSChar #
Convert a Haskell character to a C signed char
.
This function is only safe on the first 256 characters.
castCSCharToChar :: CSChar -> Char #
Convert a C signed char
, representing a Latin-1 character, to the
corresponding Haskell character.
peekCAString :: CString -> IO String #
Marshal a NUL terminated C string into a Haskell string.
peekCAStringLen :: CStringLen -> IO String #
Marshal a C string with explicit length into a Haskell string.
newCAString :: String -> IO CString #
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
free
orfinalizerFree
.
newCAStringLen :: String -> IO CStringLen #
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
free
orfinalizerFree
.
withCAString :: String -> (CString -> IO a) -> IO a #
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.
withCAStringLen :: String -> (CStringLen -> IO a) -> IO a #
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.
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).
A C wide string is a reference to an array of C wide characters terminated by NUL.
type CWStringLen = (Ptr CWchar, Int) #
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).
peekCWString :: CWString -> IO String #
Marshal a NUL terminated C wide string into a Haskell string.
peekCWStringLen :: CWStringLen -> IO String #
Marshal a C wide string with explicit length into a Haskell string.
newCWString :: String -> IO CWString #
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
free
orfinalizerFree
.
newCWStringLen :: String -> IO CWStringLen #
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
free
orfinalizerFree
.
withCWString :: String -> (CWString -> IO a) -> IO a #
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.
withCWStringLen :: String -> (CWStringLen -> IO a) -> IO a #
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.