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How do I get the byte size of a multibyte-character string in Visual C? Is there a function or do I have to count the characters myself?

Or, more general, how do I get the right byte size of a TCHAR string?

Solution:

_tcslen(_T("TCHAR string")) * sizeof(TCHAR)

EDIT:
I was talking about null-terminated strings only.

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Your code is correct, for calculating the size, in bytes, of the string. The statement "works for ... char and wchar_t ... but not for multibyte-character strings" is confused, however. –  Thanatos Jul 28 '10 at 23:50
    
So multibyte-character strings don't contain null bytes? –  Tilka Jul 28 '10 at 23:52
    
@Tilka: They could, but you'd need to know the length in some other fashion, such as storing it in an integer that comes with the string. Null terminated strings, which are what one typically encounters (and what _tcslen, strlen, etc. require), do not contain null bytes, except for the null terminator, of course. –  Thanatos Jul 28 '10 at 23:54
    
To be more precise... The multibyte strings can contain null bytes, but not null characters. ie, the first 8-bits of a character could be all-zeros, or the last 8-bits could well be all-zeros, however, if the whole character is all-zeros, then that constitutes "end-of-string" in this case. –  Arafangion Jul 29 '10 at 0:00
    
@Arafangion: But isn't a char only 8 bits wide? –  Tilka Jul 29 '10 at 0:06
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2 Answers

up vote 1 down vote accepted

According to MSDN, _tcslen corresponds to strlen when _MBCS is defined. strlen will return the number of bytes in the string. If you use _tcsclen that corresponds to _mbslen which returns the number of multibyte characters.

Also, multibyte strings do not (AFAIK) contain embedded nulls, no.

I would question the use of a multibyte encoding in the first place, though... unless you're supporting a legacy app, there's no reason to choose multibyte over Unicode.

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UTF-8 strings don't contain embedded nulls (specifically: the only place a 0 byte ever occurs is representing the 0 code point, so if that's your terminator then you can search for it byte-wise). I'm not sure whether UTF-16 is considered a "multibyte encoding" in this context, but it can certainly contain 0 bytes, just not 0 double-bytes. I think SHIFT-JIS doesn't use 0 bytes except when encoding 0. Lots of encodings in the world, but I'm not sure what's possible within Windows locales... –  Steve Jessop Jul 29 '10 at 0:07
1  
That's a bit muddled: UTF-8 strings can contain nulls, if you're storing the size in something other than a null terminator. Null terminated strings cannot contain nulls, because they're null terminated. A null terminated UTF-8 string cannot contain nulls for the same reason. That said, I cannot think of any useful purpose to putting a null in a UTF-8 string other than to terminate it. –  Thanatos Jul 29 '10 at 0:11
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Let's see if I can clear this up:

"Multi-byte character string" is a vague term to begin with, but in the world of Microsoft, it typically meants "not ASCII, and not UTF-16". Thus, you could be using some character encoding which might use 1 byte per character, or 2 bytes, or possibly more. As soon as you do, the number of characters in the string != the number of bytes in the string.

Let's take UTF-8 as an example, even though it isn't used on MS platforms. The character é is encoded as "c3 a9" in memory -- thus, two bytes, but 1 character. If I have the string "thé", it's:

text: t  h  é     \0
mem:  74 68 c3 a9 00

This is a "null terminated" string, in that it ends with a null. If we wanted to allow our string to have nulls in it, we'd need to store the size in some other fashion, such as:

struct my_string
{
    size_t length;
    char *data;
};

... and a slew of functions to help deal with that. (This is sort of how std::string works, quite roughly.)

For null-terminated strings, however, strlen() will compute their size in bytes, not characters. (There are other functions for counting characters) strlen just counts the number of bytes before it sees a 0 byte -- nothing fancy.

Now, "wide" or "unicode" strings in the world of MS refer to UTF-16 strings. They have similar problems in that the number of bytes != the number of characters. (Also: the number of bytes / 2 != the number of characters) Let look at thé again:

text:   t      h      é      \0
shorts: 0x0074 0x0068 0x00e9 0x0000
mem:    74 00  68 00  e9 00  00 00

That's "thé" in UTF-16, stored in little endian (which is what your typical desktop is). Notice all the 00 bytes -- these trip up strlen. Thus, we call wcslen, which looks at it as 2-byte shorts, not single bytes.

Lastly, you have TCHARs, which are one of the above two cases, depending on if UNICODE is defined. _tcslen will be the appropriate function (either strlen or wcslen), and TCHAR will be either char or wchar_t. TCHAR was created to ease the move to UTF-16 in the Windows world.

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"(Also: the number of bytes / 2 != the number of characters)" How so? –  Tilka Jul 29 '10 at 0:18
    
@Tilka: That's the way UTF-16 encodes characters. UTF-16 can encode more than 65,536 different characters, so it should be clear that 2 bytes are not enough. UTF-16 encodes many characters as just 2 bytes, but must use 4 for some, in a form known as "Surrogate pairs" (See Wikipedia's article on UTF-16.) –  Thanatos Jul 29 '10 at 0:27
    
Ah yes, I confused it with UCS-2. Nice explanation btw, but the other answer was straight to the point. –  Tilka Jul 29 '10 at 0:31
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