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mbrtowc is specified to handle a NULL pointer for the s (multibyte character pointer) argument as follows:

If s is a null pointer, the mbrtowc() function shall be equivalent to the call:

mbrtowc(NULL, "", 1, ps)

In this case, the values of the arguments pwc and n are ignored.

As far as I can tell, this usage is largely useless. If ps is not storing any partially-converted character, the call will simply return 0 with no side effects. If ps is storing a partially-converted character, then since '\0' is not valid as the next byte in a multibyte sequence ('\0' can only be a string terminator), the call will return (size_t)-1 with errno==EILSEQ. and leave ps in an undefined state.

The intended usage seems to have been to reset the state variable, particularly when NULL is passed for ps and the internal state has been used, analogous to mbtowc's behavior with stateful encodings, but this is not specified anywhere as far as I can tell, and it conflicts with the semantics for mbrtowc's storage of partially-converted characters (if mbrtowc were to reset state when encountering a 0 byte after a potentially-valid initial subsequence, it would be unable to detect this dangerous invalid sequence).

If mbrtowc were specified to reset the state variable only when s is NULL, but not when it points to a 0 byte, a desirable state-reset behavior would be possible, but such behavior would violate the standard as written. Is this a defect in the standard? As far as I can tell, there is absolutely no way to reset the internal state (used when ps is NULL) once an illegal sequence has been encountered, and thus no correct program can use mbrtowc with ps==NULL.

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Maybe a case of design-by-committee? i.e: someone wanted to make sure that passing NULL for each of pwc, s, and ps was specified. –  ninjalj Jan 17 '11 at 19:40

2 Answers 2

Since a '\0' byte must convert to a null wide character regardless of shift state ( Multibyte characters), and the mbrtowc() function is specified to reset the shift state when it converts to a wide null character ( The mbrtowc function), calling mbrtowc( NULL, "", 1, ps) will reset the shift state stored in the mbstate_t pointed to by ps. And if mbrtowc( NULL, "", 1, NULL) is called to use the library's internal mbstate_t object, it will be reset to an initial state. See the end of the answer for cites of the relevant bits of the standard.

I'm by no means particularly experienced with the C standard multibyte conversion functions (my experience with this kind of thing has been using the Win32 APIs for conversion).

If mbrtowc() processes a 'incomplete char' that's cut short by a 0 byte, it should return (size_t)(-1) to indicate an invalid multibyte char (and thus detect the dangerous situation you describe). In that case the conversion/shift state is unspecified (and I think you're basically hosed for that string). The multibyte 'sequence' that a conversion was attempted on but contains a '\0' is invalid and ever will be valid with subsequent data. If the '\0' wasn't intended to be part of the converted sequence, then it shouldn't have been included in the count of bytes available for processing.

If you're in a situation where you might get additional, subsequent bytes for a partial multibyte char (say from a network stream), the n you passed for the partial multibyte char shouldn't include a 0 byte, so you'll get a (size_t)(-2) returned. In this case, if you pass a '\0' while in the middle of the partial conversion, you'll lose the fact that there's an error and as a side-effect reset the mbstate_t state in use (whether it's your own or the internal one being used because you passed in a NULL pointer for ps). I think I'm essentailly restating your question here.

However I think it is possible to detect and handle this situation, but unfortunately it requires keeping track of some state yourself:

#define MB_ERROR    ((size_t)(-1))
#define MB_PARTIAL  ((size_t)(-2))

// function to get a stream of multibyte characters from somewhere
int get_next(void);

int bar(void)
    char c;
    wchar_t wc;
    mbstate_t state = {0};

    int in_partial_convert = 0;

    while ((c = get_next()) != EOF)
        size_t result = mbrtowc( &wc, &c, 1, &state);

        switch (result) {
        case MB_ERROR:
            // this multibyte char is invalid
            return -1;
        case MB_PARTIAL:
            // do nothing yet, we need more data
            // but remember that we're in this state
            in_partial_convert = 1;
        case 1:
            // output the competed wide char
            in_partial_convert = 0;     // no longer in the middle of a conversion
        case 0:
            if (in_partial_convert) {
                // this 'last' multibyte char was mal-formed
                // return an error condidtion
                return -1;
            // end of the multibyte string
            // we'll handle similar to EOF
            return 0;

    return 0;

Maybe not an ideal situation, but I think it shows it's not completely broken so as to be impossible to use.

Standards citations: Multibyte characters

  • A multibyte character set may have a state-dependent encoding, wherein each sequence of multibyte characters begins in an initial shift state and enters other locale-specific shift states when specific multibyte characters are encountered in the sequence. While in the initial shift state, all single-byte characters retain their usual interpretation and do not alter the shift state. The interpretation for subsequent bytes in the sequence is a function of the current shift state.

  • A byte with all bits zero shall be interpreted as a null character independent of shift state.

  • A byte with all bits zero shall not occur in the second or subsequent bytes of a multibyte character. The mbrtowc function

If the corresponding wide character is the null wide character, the resulting state described is the initial conversion state

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The consensus seems to be that mbrtowc does store the state for partially converted characters. This is based on text "and all n bytes have been processed" in the standard. All known implementations behave this way except ancient versions of libutf8, and the libutf8 documentation has an explanation of why the author was convinces that his original implementation was wrong and changed it. And this behavior is incompatible with '\0' unconditionally resetting state... –  R.. Jan 17 '11 at 7:33
Note that non-initial "shift state" and being in the middle of an incomplete character are two completely different things. I agree that the standard requires '\0' to be interpreted as the null wide character regardless of shift state, but even if it required it to be interpreted as the null wide-character after an incomplete character, no sane implementation would follow that behavior since it would create major security issues and violate Unicode requirements for processing UTF-8 safely. –  R.. Jan 17 '11 at 7:36
@R.: you're completely right about my misstatements about restarting a partial conversion. I've updated the answer to remove my mistakes (I hope). I've also updated it to give an example of how I think an errant '\0' character being processed while a partial conversion is 'in progress' can be detected and handled. It's not the cleanest thing I've seen, but it's also not nearly the ugliest workaround I've written. Let me know if I'm still missing something (clearly, this isn't exactly an expertise of mine - I'm on the verge of deleting the answer altogether). –  Michael Burr Jan 17 '11 at 17:24
If nothing else, your "workaround" code for a mbrtowc function that resets state on encountering a 0 byte mid-character is worth leaving here. Do you know of any implementations where this is necessary? –  R.. Jan 17 '11 at 17:34
My reading of the standard is that when mbrtowc() is passed a '\0' byte as the byte to process, it needs to reset the state. What I posted would just be a way for the caller to detect that in the middle of a partial conversion. I don't really know about the details of implementations. My experience with multibyte conversion is using the Win32 APIs, not the standard lib, to convert a string as a whole, therefore I never needed to deal with conversion state. And for me the conversion either worked or it didn't - I didn't have to try and determine where or why the conversion failed. –  Michael Burr Jan 17 '11 at 18:15

In, Multibyte characters, the C Standard states:

A byte with all bits zero shall be interpreted as a null character independent of shift state. Such a byte shall not occur as part of any other multibyte character.

The Standard seems to differentiate between shift state and conversion state, as, for example, 7.24.6 mentions:

The conversion state described by the pointed-to object is altered as needed to track the shift state, and the position within a multibyte character, for the associated multibyte character sequence.

(emphasis added by me). However, I think that the intent is to interpret a byte with all zero bits as the null character regardless of the mbstate_t value, which encodes the entire conversion state, particularly as "Such a byte shall not occur as part of any other multibyte character" implies that the null byte cannot occur within a multibyte character. If a null byte does occur in errant input where the second, third, etc. byte of a multibyte character should be, then I interpret the Standard as saying that the partial multibyte character at the EOF is silently ignored.

My reading of, The mbrtowc function, for the case when s is NULL is thus: the next 1 byte completes the null wide character, the return value of mbrtowc is 0, and the resulting state is the initial conversion state because:

If the corresponding wide character is the null wide character, the resulting state described is the initial conversion state.

By passing NULL for both s and ps, the internal mbstate_t of mbrtowc is reset to the initial state.

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Again this interpretation depends on considering proper multibyte characters to be comprised of a shift state followed by a character byte. I have never seen an implementation that does so for UTF-8. (If it did, then mbtowc would have to be stateful and accept byte-at-a-time decoding, and I've never seen an implementation that allows such.) In the absence of evidence to the contrary, I'm inclined to believe that the standard allows both shift states and characters of length greater than one byte in the default shift state as long as they don't begin with a basic character set byte. –  R.. Jan 25 '11 at 23:28
Your last comment makes no sense. mbsrtowcs operates on whole strings, whereas mbrtowc can and does support byte-at-a-time decoding (returning -2 but keeping the partial character stored in its mbstate_t object). On the other hand, all implementations of mbtowc (note the missing r) I've used return -1 on partial UTF-8 characters. I have no idea how this is intended to work with legacy multibyte character encodings (Shift_JIS etc.). –  R.. Jan 25 '11 at 23:42
@R.: Sorry. I wasn't thinking clearly. You are correct that when mbrtowc returns -2, it has processed each of the n bytes and updated the mbstate_t appropriately. Also, the end effect is the same as if mbrtowc were called n times, once for each byte (byte-at-a-time decoding). –  Daniel Trebbien Jan 25 '11 at 23:52
@R.: That mbtowc returns -1 on the partial UTF-8 encoding of a codepoint is correct. When mbtowc returns -1, then the caller knows that a full wide char could not be decoded, so the caller needs to retrieve more data and re-call mbtowc with the same s, but a higher n. –  Daniel Trebbien Jan 25 '11 at 23:59
@R..: ... (n should be greater than or equal to MB_CUR_MAX or else mbtowc could return -1 again). –  Daniel Trebbien Jan 26 '11 at 0:12

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