char32_t will be used to store UTF-16 and UTF-32 and not
From the draft n2798:
188.8.131.52 Class template codecvt
2 The class codecvt is for use when converting from one codeset to another, such as from wide characters to multibyte characters or between wide character encodings such as Unicode and
3 The specializations required in Table 76 (184.108.40.206.1) convert the implementation-
defined native character set. codecvt implements a degenerate
conversion; it does not convert at all. The specialization
mbstate_t> converts between the UTF-16 and UTF-8 encodings schemes, and the
codecvt <char32_t, char, mbstate_t> converts between the UTF-32 and
UTF-8 encodings schemes.
codecvt<wchar_t,char,mbstate_t> converts between the native
character sets for narrow and wide characters. Specializations on
conversion between encodings known to the library implementor.
Other encodings can be converted by specializing on a user-defined stateT type. The stateT object can contain any state that is useful to communicate to or from the specialized do_in or
The thing about
wchar_t is that it does not give you any guarantees about the encoding used. It is a type that can hold a multibyte character. Period. If you are going to write software now, you have to live with this compromise. C++0x compliant compilers are yet a far cry. You can always give the VC2010 CTP and g++ compilers a try for what it is worth. Moreover,
wchar_t has different sizes on different platforms which is another thing to watch out for (2 bytes on VS/Windows, 4 bytes on GCC/Mac and so on). There is then options like
-fshort-wchar for GCC to further complicate the issue.
The best solution therefore is to use an existing library. Chasing UNICODE bugs around isn't the best possible use of effort/time. I'd suggest you take a look at:
More on C++0x Unicode string literals here