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The most fundamental of the conversion functions are those dealing with single characters. Please note that this does not always mean single bytes. But since there is very often a subset of the multibyte character set that consists of single byte sequences, there are functions to help with converting bytes. Frequently, ASCII is a subpart of the multibyte character set. In such a scenario, each ASCII character stands for itself, and all other characters have at least a first byte that is beyond the range 0 to 127.
wint_t btowc (int c) | Function |
The btowc function ("byte to wide character") converts a valid
single byte character c in the initial shift state into the wide
character equivalent using the conversion rules from the currently
selected locale of the LC_CTYPE category.
If Please note the restriction of c being tested for validity only in
the initial shift state. No The |
Despite the limitation that the single byte value always is interpreted
in the initial state this function is actually useful most of the time.
Most characters are either entirely single-byte character sets or they
are extension to ASCII. But then it is possible to write code like this
(not that this specific example is very useful):
wchar_t * itow (unsigned long int val) { static wchar_t buf[30]; wchar_t *wcp = &buf[29]; *wcp = L'\0'; while (val != 0) { *--wcp = btowc ('0' + val % 10); val /= 10; } if (wcp == &buf[29]) *--wcp = L'0'; return wcp; }
Why is it necessary to use such a complicated implementation and not
simply cast '0' + val % 10
to a wide character? The answer is
that there is no guarantee that one can perform this kind of arithmetic
on the character of the character set used for wchar_t
representation. In other situations the bytes are not constant at
compile time and so the compiler cannot do the work. In situations like
this it is necessary btowc
.
There also is a function for the conversion in the other direction.
int wctob (wint_t c) | Function |
The wctob function ("wide character to byte") takes as the
parameter a valid wide character. If the multibyte representation for
this character in the initial state is exactly one byte long, the return
value of this function is this character. Otherwise the return value is
EOF .
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There are more general functions to convert single character from multibyte representation to wide characters and vice versa. These functions pose no limit on the length of the multibyte representation and they also do not require it to be in the initial state.
size_t mbrtowc (wchar_t *restrict pwc, const char *restrict s, size_t n, mbstate_t *restrict ps) | Function |
The mbrtowc function ("multibyte restartable to wide
character") converts the next multibyte character in the string pointed
to by s into a wide character and stores it in the wide character
string pointed to by pwc. The conversion is performed according
to the locale currently selected for the LC_CTYPE category. If
the conversion for the character set used in the locale requires a state,
the multibyte string is interpreted in the state represented by the
object pointed to by ps. If ps is a null pointer, a static,
internal state variable used only by the mbrtowc function is
used.
If the next multibyte character corresponds to the NUL wide character,
the return value of the function is 0 and the state object is
afterwards in the initial state. If the next n or fewer bytes
form a correct multibyte character, the return value is the number of
bytes starting from s that form the multibyte character. The
conversion state is updated according to the bytes consumed in the
conversion. In both cases the wide character (either the If the first n bytes of the multibyte string possibly form a valid
multibyte character but there are more than n bytes needed to
complete it, the return value of the function is If the first
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Use of mbrtowc
is straightforward. A function that copies a
multibyte string into a wide character string while at the same time
converting all lowercase characters into uppercase could look like this
(this is not the final version, just an example; it has no error
checking, and sometimes leaks memory):
wchar_t * mbstouwcs (const char *s) { size_t len = strlen (s); wchar_t *result = malloc ((len + 1) * sizeof (wchar_t)); wchar_t *wcp = result; wchar_t tmp[1]; mbstate_t state; size_t nbytes; memset (&state, '\0', sizeof (state)); while ((nbytes = mbrtowc (tmp, s, len, &state)) > 0) { if (nbytes >= (size_t) -2) /* Invalid input string. */ return NULL; *result++ = towupper (tmp[0]); len -= nbytes; s += nbytes; } return result; }
The use of mbrtowc
should be clear. A single wide character is
stored in tmp[0]
, and the number of consumed bytes is stored
in the variable nbytes. If the conversion is successful, the
uppercase variant of the wide character is stored in the result
array and the pointer to the input string and the number of available
bytes is adjusted.
The only non-obvious thing about mbrtowc
might be the way memory
is allocated for the result. The above code uses the fact that there
can never be more wide characters in the converted results than there are
bytes in the multibyte input string. This method yields a pessimistic
guess about the size of the result, and if many wide character strings
have to be constructed this way or if the strings are long, the extra
memory required to be allocated because the input string contains
multibyte characters might be significant. The allocated memory block can
be resized to the correct size before returning it, but a better solution
might be to allocate just the right amount of space for the result right
away. Unfortunately there is no function to compute the length of the wide
character string directly from the multibyte string. There is, however, a
function that does part of the work.
size_t mbrlen (const char *restrict s, size_t n, mbstate_t *ps) | Function |
The mbrlen function ("multibyte restartable length") computes
the number of at most n bytes starting at s, which form the
next valid and complete multibyte character.
If the next multibyte character corresponds to the NUL wide character, the return value is 0. If the next n bytes form a valid multibyte character, the number of bytes belonging to this multibyte character byte sequence is returned. If the the first n bytes possibly form a valid multibyte
character but the character is incomplete, the return value is
The multibyte sequence is interpreted in the state represented by the
object pointed to by ps. If ps is a null pointer, a state
object local to
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The attentive reader now will note that mbrlen
can be implemented
as
mbrtowc (NULL, s, n, ps != NULL ? ps : &internal)
This is true and in fact is mentioned in the official specification.
How can this function be used to determine the length of the wide
character string created from a multibyte character string? It is not
directly usable, but we can define a function mbslen
using it:
size_t mbslen (const char *s) { mbstate_t state; size_t result = 0; size_t nbytes; memset (&state, '\0', sizeof (state)); while ((nbytes = mbrlen (s, MB_LEN_MAX, &state)) > 0) { if (nbytes >= (size_t) -2) /* Something is wrong. */ return (size_t) -1; s += nbytes; ++result; } return result; }
This function simply calls mbrlen
for each multibyte character
in the string and counts the number of function calls. Please note that
we here use MB_LEN_MAX
as the size argument in the mbrlen
call. This is acceptable since a) this value is larger then the length of
the longest multibyte character sequence and b) we know that the string
s ends with a NUL byte, which cannot be part of any other multibyte
character sequence but the one representing the NUL wide character.
Therefore, the mbrlen
function will never read invalid memory.
Now that this function is available (just to make this clear, this
function is not part of the GNU C library) we can compute the
number of wide character required to store the converted multibyte
character string s using
wcs_bytes = (mbslen (s) + 1) * sizeof (wchar_t);
Please note that the mbslen
function is quite inefficient. The
implementation of mbstouwcs
with mbslen
would have to
perform the conversion of the multibyte character input string twice, and
this conversion might be quite expensive. So it is necessary to think
about the consequences of using the easier but imprecise method before
doing the work twice.
size_t wcrtomb (char *restrict s, wchar_t wc, mbstate_t *restrict ps) | Function |
The wcrtomb function ("wide character restartable to
multibyte") converts a single wide character into a multibyte string
corresponding to that wide character.
If s is a null pointer, the function resets the state stored in
the objects pointed to by ps (or the internal wcrtombs (temp_buf, L'\0', ps) since, if s is a null pointer, If wc is the NUL wide character, Otherwise a byte sequence (possibly including shift sequences) is written
into the string s. This only happens if wc is a valid wide
character (i.e., it has a multibyte representation in the character set
selected by locale of the If no error occurred the function returns the number of bytes stored in the string s. This includes all bytes representing shift sequences. One word about the interface of the function: there is no parameter
specifying the length of the array s. Instead the function
assumes that there are at least
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Using wcrtomb
is as easy as using mbrtowc
. The following
example appends a wide character string to a multibyte character string.
Again, the code is not really useful (or correct), it is simply here to
demonstrate the use and some problems.
char * mbscatwcs (char *s, size_t len, const wchar_t *ws) { mbstate_t state; /* Find the end of the existing string. */ char *wp = strchr (s, '\0'); len -= wp - s; memset (&state, '\0', sizeof (state)); do { size_t nbytes; if (len < MB_CUR_LEN) { /* We cannot guarantee that the next character fits into the buffer, so return an error. */ errno = E2BIG; return NULL; } nbytes = wcrtomb (wp, *ws, &state); if (nbytes == (size_t) -1) /* Error in the conversion. */ return NULL; len -= nbytes; wp += nbytes; } while (*ws++ != L'\0'); return s; }
First the function has to find the end of the string currently in the
array s. The strchr
call does this very efficiently since a
requirement for multibyte character representations is that the NUL byte
is never used except to represent itself (and in this context, the end
of the string).
After initializing the state object the loop is entered where the first
task is to make sure there is enough room in the array s. We
abort if there are not at least MB_CUR_LEN
bytes available. This
is not always optimal but we have no other choice. We might have less
than MB_CUR_LEN
bytes available but the next multibyte character
might also be only one byte long. At the time the wcrtomb
call
returns it is too late to decide whether the buffer was large enough. If
this solution is unsuitable, there is a very slow but more accurate
solution.
... if (len < MB_CUR_LEN) { mbstate_t temp_state; memcpy (&temp_state, &state, sizeof (state)); if (wcrtomb (NULL, *ws, &temp_state) > len) { /* We cannot guarantee that the next character fits into the buffer, so return an error. */ errno = E2BIG; return NULL; } } ...
Here we perform the conversion that might overflow the buffer so that
we are afterwards in the position to make an exact decision about the
buffer size. Please note the NULL
argument for the destination
buffer in the new wcrtomb
call; since we are not interested in the
converted text at this point, this is a nice way to express this. The
most unusual thing about this piece of code certainly is the duplication
of the conversion state object, but if a change of the state is necessary
to emit the next multibyte character, we want to have the same shift state
change performed in the real conversion. Therefore, we have to preserve
the initial shift state information.
There are certainly many more and even better solutions to this problem. This example is only provided for educational purposes.