Is it possible to have char *s to work with utf8 encoding in C++ (VC2010)?

For example if my source file is saved in utf8 and I write something like this:

const char* c = "aäáéöő";

Is this possible to make it utf-8 encoded? And if yes, how is it possible to use

char* c2 = new char[strlen("aäáéöő")];

for dynamic allocation if characters can be variable length?

  • Does VS2010 supports C++0x? If so you can try u8 described here: en.wikipedia.org/wiki/C%2B%2B0x#New_string_literals
    – Naveen
    May 20, 2011 at 13:12
  • seems like it isn't implemented or maybe I would need some compiler parameters.
    – sekmet64
    May 20, 2011 at 13:14
  • I don't think it supports those literals. It only implements choice features.
    – Skurmedel
    May 20, 2011 at 13:16
  • 1
    No, VS2010 implements 5 features from C++0x : lambda, r-value reference, auto/decltype (type inference), nullptr. It have been done far before the C++11 draft have been fixed (last months).
    – Klaim
    May 20, 2011 at 13:16
  • 2
    @Bo, UTF-8 encoding guarantees that no encoding matches \0. May 20, 2011 at 13:40

5 Answers 5


The encoding for narrow character string literals is implementation defined, so you'd really have to read the documentation (if you can find it). A quick experiment shows that both VC++ (VC8, anyway) and g++ (4.4.2, anyway) actually just copy the bytes from the source file; the string literal will be in whatever encoding your editor saved it in. (This is clearly in violation of the standard, but it seems to be common practice.)

C++11 has UTF-8 string literals, which would allow you to write u8"text", and be ensured that "text" was encoded in UTF-8. But I don't really expect it to work reliably: the problem is that in order to do this, the compiler has to know what encoding your source file has. In all probability, compiler writers will continue to ignore the issue, just copying the bytes from the source file, and achieve conformance simply be documenting that the source file must be in UTF-8 for these features to work.

  • 5
    The notion that a working program can be made buggy by changing the encoding scheme of the source file from UTF-8 to UTF-16 reinforces my impression that C++ is pure chaos! Someone please tell me that this isn't true. :( May 20, 2011 at 13:39
  • 3
    @Whitledge The notion that any program which reads text will have problems coping with input without knowing its encoding doesn't seem particularly surprising to me; I don't see how it can be otherwise. The C++ standard is quite clear about what should happen for a given sequence of input characters (although the two most widely used compilers ignore the standard in that regard), but it can't have much to say about how the compiler interprets the encoding of the input. (Most platforms, for example, don't support UTF-16.) May 20, 2011 at 14:17
  • 2
    @James Kanze - Obviously not knowing the encoding would cause problems. That was not what I was talking about. It sounded to me like a program would compile with either UTF-8 or UTF-16, but the behavior of the compiled program would be different depending on the encoding. If most platforms don't support UTF-16, then I guess this isn't the case at all. It sounds like C++ source files are not really text files at all, but binary files with some similarity to text. If that is the case, then the "encoding" would certainly make a difference, since it isn't really a text encoding. May 20, 2011 at 14:27
  • 1
    I'm not sure about the standards violation. Clearly, a compiler that defined the charset as UTF8 is complaint. One that defines is as UTF8 or Latin1 depending on a /charset: switch would be also compliant. One that defines it as UTF8 or Latin1 depending on the input charset would be, too - the standard doesn't mandate a lot in this regard, as long as it's documented.
    – MSalters
    May 20, 2011 at 14:48
  • 2
    @Bo Persson - My prior expectation was that the encoding of the source file and the encoding of the target platform were distinct concepts, and string literals would become string data in whatever target encoding was specified or implied for that literal, regardless of the encoding of the source (so long as a proper mapping between the two was available). This would imply that a source code file could be converted from one encoding to another without altering the resulting compiled binaries May 20, 2011 at 15:29

If the text you want to put in the string is in your source code, make sure your source code file is in UTF-8.

If that don't work, try maybe using \u1234 with 1234 being a code point value.

You can also try to use UTF8-CPP maybe.

Take a look at this answer : Using Unicode in C++ source code


See this MSDN article which talks about converting between string types (that should give you examples on how to use them). The strings types that are covered include char *, wchar_t*, _bstr_t, CComBSTR, CString, basic_string, and System.String:

How to: Convert Between Various String Types


There is a hotfix for VisualStudio 2010 SP1 which can help: http://support.microsoft.com/kb/980263.

The hotfix adds a pragma to override visual studio's control the character encoding for the char type:

#pragma execution_character_set("utf-8")

Without the pragma, char* based literals are typically interpreted as the default code page (typically 1252)

This should all be superseded eventually by new string literal prefix modifiers specified by C++0x (u8, u, and U for utf-8, utf-16, and utf-32 respectively), which ideally will be supprted in the next major version of Visual Studio after 2010.


It is possible, save the file in UTF-8 without BOM signature encoding.

//Save As UTF8 without BOM signature
int main(){
    char *c1 = "aäáéöő";
    char *c2 = new char[strlen("aäáéöő")];



The result of redirection program is really UTF8 encoded file.
UTF8 file
This is compiler - independent answer (compile on Windows).
(A similar question.)

  • 1
    undefined behavior code, as you allocate enough memory for 6 characters in c2, while you copy 7 characters form c1 to c2.
    – neo5003
    Jun 4, 2019 at 13:50

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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