Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm trying to convert an application from Java + Swing to C++ + Qt. At one point I had to deal with some Unicode intermediates. In Java, this was fairly easy:

private static String[] hiraganaTable = {
    "\u3042", "\u3044", "\u3046", "\u3048", "\u304a", 
    "\u304b", "\u304d", "\u304f", "\u3051", "\u3053", 

...whereas in C++ I'm having problems:

QString hiraganaTable[] = {
    "\x30\x42", "\x30\x44", "\x30\x46", "\x30\x48", "\x30\x4a", 
    "\x30\x4b", "\x30\x4d", "\x30\x4f", "\x30\x51", "\x30\x53", 

I couldn't use \u in VS2008 because I got a heap of warnings of the form:

character represented by universal-character-name '\u3042' cannot be represented in the current code page (1250)

And don't call me stupid, I tried to use File->Advanced Save Options to no avail, the codepage didn't seem to change at all. Seems like this is a known problem: How to create a UTF-8 string literal in Visual C++ 2008

The table I'm using is fairly short, so with the help of Vim and some introductory-level regexp-magic, I was able to convert it to \x30\x42 notation. Unfortunately, the QStrings would not initialize properly from such an input. I tried everything. fromAscii(), fromUtf8(), fromLocal8Bit(), QString(QByteArray), the works. Then, trying to write U+3042 without BOM to a file and then viewing it in hex mode, I found out it actually turns out to be "E3 81 82". Suddenly, an entry like this seemed to work with QString::fromAscii(). Now I'm left wondering how much does exactly the "U+" stand for in "U+3042" (since 0xE38182 - 0x3042 = E35140, maybe I'd better add this Magic Constant to all my would-be Unicode chars?). How should I proceed from here to get an array of proper UTF-8 strings?

share|improve this question
up vote 3 down vote accepted

The problem is that C++ is based on C, which dates back to the ASCII age. The "default" C strings "abc" are 8 bits. Your Visual C++ compiler has 16 bits Unicode (UTF-16) literals, though, with a slightly different syntax: L"abc\u3042". The type of such literals is wchar_t[N] instead of char[N], you can store them in a std::wstring.

Qt fully understands wchar_t and QStrings can be directly constructed from them without conversion problems.

share|improve this answer
What about portability of L"? I'd like to build the code with g++ some day and I suppose this might cause problems. – neuviemeporte Nov 24 '10 at 12:16
Shouldn't be a problem until you go outside the BMP (Basic Multilingual Plane). I.e. Byzantine music notes might be a problem, or ancient Sumerian. – MSalters Nov 24 '10 at 14:37

What you're seeing is the UTF-8 encoding of that character.

>>> u'\u3042'.encode('utf-8').encode('hex')

If you write them all out in UTF-8 then you should be fine.

The "U+" just indicates that you're looking at a Unicode codepoint as opposed to some specific encoding.


A small scriptlet to help you get started, in Python (same language as above):

>>> print ',\n'.join(', '.join('"%s"' % (y.encode('utf-8').encode('string-escape')
      ,) for y in x) for x in [u'あいうえお', u'かきくけこ', u'さしすせそ'])
"\xe3\x81\x82", "\xe3\x81\x84", "\xe3\x81\x86", "\xe3\x81\x88", "\xe3\x81\x8a",
"\xe3\x81\x8b", "\xe3\x81\x8d", "\xe3\x81\x8f", "\xe3\x81\x91", "\xe3\x81\x93",
"\xe3\x81\x95", "\xe3\x81\x97", "\xe3\x81\x99", "\xe3\x81\x9b", "\xe3\x81\x9d"
share|improve this answer

"U+dddd" where each d is a hexadecimal digit denotes a Unicode code point.

You cannot store 16-bit values in 8-bit chars; that's the main problem you're having.

Use wide characters, e.g. (these are string literals) L"\0x3042" or L"\u3042".

Then figure out how to make QString accept those.

Note: Visual C++ will emit sillywarning for the \U notation used within literals, while g++ will emit sillywarnings for that notation used outside literals.

Cheers & hth.,

share|improve this answer
Actually, Unicode code points are U+PPDDDD, where PP is a hex value between 00 and 10 (so, 17 values) and DDDD is any four hex digits. Unicode is a 21-bit character set, not a 16-bit character set. – tchrist Nov 24 '10 at 1:42
@tchrist right, but that's unnecessary detail. there's a heck of a lot to be said about unicode. i could go on for several thousand pages. also about SO, by the way. i note that impractical but clever-looking answers that don't really answer the question, get upvoted (in general). argh. cheers, – Cheers and hth. - Alf Nov 24 '10 at 1:58
I just get nervous about people claiming that Unicode characters are 16-bit values. That's the kind of thinking that locks people into UCS-2 and the BMP. Know what I mean? Then they could never have the wonderful U+01F47D, EXTRATERRESTRIAL ALIEN, in their code. :) – tchrist Nov 24 '10 at 1:59
@tchrist: nothing wrong with UCS-2. in fact for portable code the OP had better limit himself to 16-bit values and encode UTF-16 pairs explicitly if such a Unicode character is needed. because wchar_t is 16 bits in Windows (it would be the same kind of problem as the original). Cheers & hth., – Cheers and hth. - Alf Nov 24 '10 at 2:03

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.