I need to convert between wstring and string. I figured out, that using codecvt facet should do the trick, but it doesn't seem to work for utf-8 locale.

My idea is, that when I read utf-8 encoded file to chars, one utf-8 character is read into two normal characters (which is how utf-8 works). I'd like to create this utf-8 string from wstring representation for library I use in my code.

Does anybody know how to do it?

I already tried this:

  locale mylocale("cs_CZ.utf-8");
  mbstate_t mystate;

  wstring mywstring = L"čřžýáí";

  const codecvt<wchar_t,char,mbstate_t>& myfacet =
    use_facet<codecvt<wchar_t,char,mbstate_t> >(mylocale);

  codecvt<wchar_t,char,mbstate_t>::result myresult;  

  size_t length = mywstring.length();
  char* pstr= new char [length+1];

  const wchar_t* pwc;
  char* pc;

  // translate characters:
  myresult = myfacet.out (mystate,
      mywstring.c_str(), mywstring.c_str()+length+1, pwc,
      pstr, pstr+length+1, pc);

  if ( myresult == codecvt<wchar_t,char,mbstate_t>::ok )
   cout << "Translation successful: " << pstr << endl;
  else cout << "failed" << endl;
  return 0;

which returns 'failed' for cs_CZ.utf-8 locale and works correctly for cs_CZ.iso8859-2 locale.

  • 1
    take a look at this link: boost.org/doc/libs/1_42_0/libs/serialization/doc/codecvt.html might be of some help
    – smerlin
    Dec 5 '10 at 13:14
  • 3
    "one utf-8 character is read into two normal characters (which is how utf-8 works)" No it's not. UTF-16 (mostly) works this way, but a UTF-8 codepoint is represented by one to 4 bytes, and a "character" can consist of multiple codepoints.
    – ephemient
    Dec 5 '10 at 14:32
  • ephimient - yes - I know it, I just wrote it badly :)
    – Trakhan
    Dec 5 '10 at 18:06

The code below might help you :)

#include <codecvt>
#include <string>

// convert UTF-8 string to wstring
std::wstring utf8_to_wstring (const std::string& str)
    std::wstring_convert<std::codecvt_utf8<wchar_t>> myconv;
    return myconv.from_bytes(str);

// convert wstring to UTF-8 string
std::string wstring_to_utf8 (const std::wstring& str)
    std::wstring_convert<std::codecvt_utf8<wchar_t>> myconv;
    return myconv.to_bytes(str);
  • 6
    But not on linux using libstdc++.
    – Tom
    Jul 24 '14 at 5:08
  • 1
    While the above work. I strongly suggest looking into Unicode library such as ICU and Boost.Locale.
    – skyde
    May 25 '16 at 17:58
  • It works like a charm for any std::wstring. Small test here: stackoverflow.com/a/37531136/1802974 May 30 '16 at 17:41
  • you might also need #include <locale>, otherwise it should build fine with libc++
    – Hofi
    May 10 '17 at 15:45
  • 1
    codecvt is deprecated as of C++17 and there is no replacement. Aug 30 '20 at 6:10

What's your platform? Note that Windows does not support UTF-8 locales so this may explain why you're failing.

To get this done in a platform dependent way you can use MultiByteToWideChar/WideCharToMultiByte on Windows and iconv on Linux. You may be able to use some boost magic to get this done in a platform independent way, but I haven't tried it myself so I can't add about this option.


You can use boost's utf_to_utf converter to get char format to store in std::string.

std::string myresult = boost::locale::conv::utf_to_utf<char>(my_wstring);

What locale does is that it gives the program information about the external encoding, but assuming that the internal encoding didn't change. If you want to output UTF-8 you need to do it from wchar_t not from char*.

What you could do is output it as raw data (not string), it should be then correctly interpreted if the systems locale is UTF-8.

Plus when using (w)cout/(w)cerr/(w)cin you need to imbue the locale on the stream.

  • UTF-8 uses 8-bit code units. char (as well as signed char and unsigned char) must be a minimum of 8 bits. I believe you may be thinking of UTF-16, UTF-32, UCS2, or UCS4. Dec 13 '16 at 1:29

The Lexertl library has an iterator that lets you do this:

std::string str;

C++ has no idea of Unicode. Use an external library such as ICU (UnicodeString class) or Qt (QString class), both support Unicode, including UTF-8.

  • 8
    -1 not really true, C++ supports locales which includes encoding (unfortunately this is broken for UTF-8 on Windows) Dec 5 '10 at 19:50
  • Agree. C++ doesn't guarantee Unicode, or the existence of locale ("cs_CZ.utf-8");. But if you've got a system with that locale, it better work.
    – MSalters
    Dec 6 '10 at 10:24
  • 1
    No longer true as of C++11. char16_t is specifically intended for UTF-16, and char32_t is specifically intended for UTF-32; C++14 expands on this, by requiring that the char types be large enough to store 256 distinct values specifically to be suitable for UTF-8. C++11 also added classes codecvt_utf8, codecvt_utf16, and codecvt_utf8_utf16, as well as two new specialisations of codecvt (std::codecvt<char16_t, char, std::mbstate_t> and std::codecvt<char32_t, char, std::mbstate_t>). So, C++ now officially supports UTF-8, UTF-16, UTF-32, UCS2, and UCS4. Dec 13 '16 at 1:06
  • Out of those codecvts: codecvt_utf8 converts between UTF-8 and UCS2/UCS4, codecvt_utf16 converts between UTF-16 and UCS2/UCS4, codecvt_utf8_utf16 converts between UTF-8 and UTF-16, codecvt's char16_t specialisation is also for UTF-8 and UTF-16, and codecvt's char32_t specialisation converts between UTF-8 and UTF-32. Not 100% sure of exactly how they work yet, I actually just started learning Unicode conversion today. Dec 13 '16 at 1:09

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