I have a wstring declared as such:

// random wstring
std::wstring str = L"abcàdëefŸg€hhhhhhhµa";

The literal would be UTF-8 encoded, because my source file is.

[EDIT: According to Mark Ransom this is not necessarily the case, the compiler will decide what encoding to use - let us instead assume that I read this string from a file encoded in e.g. UTF-8]

I would very much like to get this into a file reading (when text editor is set to the correct encoding)


but ofstream is not very cooperative (refuses to take wstring parameters), and wofstream supposedly needs to know locale and encoding settings. I just want to output this set of bytes. How does one normally do this?

EDIT: It must be cross platform, and should not rely on the encoding being UTF-8. I just happen to have a set of bytes stored in a wstring, and want to output them. It could very well be UTF-16, or plain ASCII.


Why not write the file as a binary. Just use ofstream with the std::ios::binary setting. The editor should be able to interpret it then. Don't forget the Unicode flag 0xFEFF at the beginning. You might be better of writing with a library, try one of these:




  • The problem is that I won't know that this is UTF-8, so I'll have to do without the BOM. But still, I'll see if I can use binary. It's a bit hairy for what I'm doing, though - I'd rather avoid it if possible. – Oystein Oct 29 '10 at 16:59
  • I have decided to drop unicode support, it's not worth it in my case. Yet, I feel this answer was the closest one to a working solution, so you get the accepted status (at least for now). – Oystein Oct 29 '10 at 22:31

For std::wstring you need std::wofstream

std::wofstream f(L"C:\\some file.txt");
f << str;
  • 2
    This doesn't work in Windows if the string actually contains non-8bit characters – M.M Apr 27 '18 at 4:07

std::wstring is for something like UTF-16 or UTF-32, not UTF-8. For UTF-8, you probably just want to use std::string, and write out via std::cout. Just FWIW, C++0x will have Unicode literals, which should help clarify situations like this.

  • 3
    @oystein: what Jerry is telling you is (1) that wstring does not give you UTF-8 encoding, and (2) that string does, if your source code is UTF-8 encoded. Cheers & hth., – Cheers and hth. - Alf Oct 29 '10 at 16:43
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    @oystein: wstring simply isn't UTF-8. You can store UTF-8 in a std::string, but you must be very careful using string methods such as find. – Roger Pate Oct 29 '10 at 16:46
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    @oystein: wchar_t can't (reasonably) represent UTF-8 — its entire raison d'être is to represent wide characters instead of a multibyte encoding. – Roger Pate Oct 29 '10 at 16:51
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    No, wstring is just a basic_string<wchar_t>. Nothing more. – Oystein Oct 29 '10 at 17:21
  • 3
    @oystein: yes, but the whole point of UTF-8 is to encode a code point into 8-bit "chunks". wchar_t is specifically intended for dealing with "chunks" that are larger than 8 bits. As such, while you can store UTF-8 into a wchar_t, it's utterly pointless to do so. char is guaranteed to be (at least) 8 bits, which (in turn) guarantees that it will hold UTF-8 data without a problem. – Jerry Coffin Oct 29 '10 at 17:25

C++ has means to perform a conversion from wide character to localized ones on output or file write. Use codecvt facet for that purpose.

You may use standard std::codecvt_byname, or a non-standard codecvt_facet implementation.

#include <locale>
using namespace std;
typedef codecvt_facet<wchar_t, char, mbstate_t> Cvt;
locale utf8locale(locale(), new codecvt_byname<wchar_t, char, mbstate_t> ("en_US.UTF-8"));
wcout << L"Hello, wide to multybyte world!" << endl;

Beware that on some platforms codecvt_byname can only emit conversion only for locales that are installed in the system. I therefore recommend to search stackoverflow for "utf8 codecvt " and make a choice from many referenes of custom codecvt implementations listed.

EDIT: As OP states that the string is already encoded, all he should do is to remove prefixes L and "w" from every token of his code.

  • Actually codecvt might be used to perform any conversions needed, but the most used one and provided by STL are input/output operations. – Basilevs Oct 29 '10 at 17:07
  • Yes, but I do not want to convert anything, or am I missing something? The string is already encoded – Oystein Oct 29 '10 at 17:28
  • Then why are you making compilator to convert it to UNICODE with L prefix? Just output it with narrow streams. – Basilevs Oct 29 '10 at 17:41
  • Encoded - means stored in an external encoding. In your case you write in external encoding. Then compiler converts your code to UNICODE, internal encoding and stores that in object module. Therefore if you want to output something you should perform a backward conversion or stop making compiler do the unnecessary. – Basilevs Oct 29 '10 at 17:46
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    BTW, here are semiworking implementation of codecvt based on winapi and iconv. They illustrate the problem of codepoint sizes: fakedetector.cvs.sourceforge.net/viewvc/fakedetector/fakebase/… fakedetector.cvs.sourceforge.net/viewvc/fakedetector/fakebase/… – Basilevs Oct 29 '10 at 18:07

There is a (Windows-specific) solution that should work for you here. Basically, convert wstring to UTF-8 codepage and then use ofstream.

#include < windows.h >

std::string to_utf8(const wchar_t* buffer, int len)
        int nChars = ::WideCharToMultiByte(
        if (nChars == 0) return "";

        string newbuffer;
        newbuffer.resize(nChars) ;
                const_cast< char* >(newbuffer.c_str()),

        return newbuffer;

std::string to_utf8(const std::wstring& str)
        return to_utf8(str.c_str(), (int)str.size());

int main()
        std::ofstream testFile;

        testFile.open("demo.xml", std::ios::out | std::ios::binary); 

        std::wstring text =
                L"< ?xml version=\"1.0\" encoding=\"UTF-8\"? >\n"
                L"< root description=\"this is a naïve example\" >\n< /root >";

        std::string outtext = to_utf8(text);

        testFile << outtext;


        return 0;
  • That's all nice, but I won't know the encoding of my string, and such this won't really help.. Also I need to be cross-platform – Oystein Oct 29 '10 at 16:56
  • @luke - I did link to that, in the first line of the first version of the response. – Steve Townsend Oct 29 '10 at 16:57
  • aaaaahhh, I already had the link in my history, so it looked like plain text. Terribly sorry. – luke Oct 29 '10 at 16:59
  • @luke - np at all; @oystein - I will leave this here for future reference anyway - sorry it's not useful in your scenario. – Steve Townsend Oct 29 '10 at 17:02

Note that wide streams output only char * variables, so maybe you should try using the c_str() member function to convert a std::wstring and then output it to the file. Then it should probably work?

  • Did not seem to work for me, not with wofstream and not with ofstream – Oystein Oct 29 '10 at 16:48
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    Aah oops. Sorry for not being helpful. – user225312 Oct 29 '10 at 16:48

You should not use UTF-8 encoded source file if you want to write portable code. Sorry.

  std::wstring str = L"abcàdëefŸg€hhhhhhhµa";

(I am not sure if this actually hurts the standard, but I think it is. But even if, to be safe you should not.)

Yes, purely using std::ostream will not work. There are many ways to convert a wstring to UTF-8. My favorite is using the International Components for Unicode. It's a big lib, but it's great. You get a lot of extras and things you might need in the future.

  • Sorry, I feel people don't get the point of this question, maybe I'm not clear enough. The problem is not UTF-8. This was just an example I picked. I will probably read the (w)string from a file, it could have any encoding. The problem is writing it back to a file. – Oystein Oct 29 '10 at 17:44
  • I see.Then you probably just have to make sure to open the file in binary mode. – towi Oct 29 '10 at 18:19
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    @oystein, Wow, I got your problem now. If you don't know the encoding you can't transform codepoints. If you can't do that, there is no meaning in wchar_t. Top voted answer is sure right. – Basilevs Oct 29 '10 at 18:27
  • Probably, see inf.ig.sh's answer. I might end up with that. @basilevs: There is a reason I'm using wchar_t. I want to do lots of heavy manipulation on that string before I write it back, and have to rely on each element of my string being one whole character. That's not going to be the case with std::string as soon as you step outside the english-speaking world. With wide strings, it'll be likely enough that I can live with it. – Oystein Oct 29 '10 at 21:21

From my experience of working with different character encodings I would recommend that you only deal with UTF-8 at load and save time. You're in for a world of pain if you try and store the internal representation in UTF-8 since a single character could be anything from 1 byte to 4. So simple operations like strlen require looking at every byte to decide len rather than the allocated buffer (although you can optimize by looking at the first byte in the char sequence, e.g. 00..7f is a single byte char, c2..df indicates a 2 byte char etc).

People quite often refer to 'Unicode strings' when they mean UTF-16 and on Windows a wchar_t is a fixed 2 bytes. In Windows I think wchar_t is simply:

typedef SHORT wchar_t;

The full UTF-32 4 byte representation is rarely required and very wasteful, here what the Unicode Standard (5.0) has to say on it:

"On average more than 99% of all UTF-16 is expressed using single code units... UTF-16 provides the right mix of compact size with the ability to handle the occassional character outside the BMP"

In short, use whcar_t as your internal representation and do conversions when loading and saving (and don't worry about full Unicode unless you know you need it).

With regard to performing the actual conversion have a look at the ICU project:


  • Some sensible words here. I was trying to avoid encodings at all, to be honest, since I really won't know what I'll get thrown at me in this case. That makes doing any conversions difficult. Storing it as a vector<char> (or similar) would mean that I have to make my own string class, and unicode support is really not worth that much coding time. It's starting to look like I'm going to drop unicode support for now, but we'll see. – Oystein Oct 29 '10 at 18:01
  • (1) It's often more useful to know how many bytes are in a string (for memory allocation, disk space, etc.), than it is to know how many characters are in a string. For this purpose, strlen does work correctly for UTF-8. – dan04 Oct 29 '10 at 18:42
  • 1
    (2) It's not true that "most OSes consider a wchar_t as fixed 2 bytes" or as UTF-16. That's a Windows thing, done for backwards compatibility with UCS-2-based older versions of NT. On Linux, wchar_t is usually UTF-32. So, for cross-platform code, you either need to use UTF-8 or typedef your own UTF-16 / UTF-32 types. Fortunately, the new C++ standard will have char16_t and char32_t. – dan04 Oct 29 '10 at 18:50
  • @dan04 To be honest I spend most of my time in Win world so I can't argue on other OSes. The Unicode Standard (5.0) states "On average more than 99% of all UTF-16 is expressed using single code units... UTF-16 provides the right mix of compact size with the ability to handle the occassional character outside the BMP". That's my main point. With regard to how useful it is to know character sizes rather than byte sizes... try writing any character processing code without knowing character lengths! UTF-8 is great for portability (no byte ordering issues) but not for working in. – snowdude Oct 29 '10 at 21:10
  • I've written a lot of string-handling code that doesn't care about character lengths. Consider for example, a routine to convert DOS-style line breaks to Unix-style ones. It doesn't matter if the 3 bytes "\xE2\x82\xAC" represent a single character; you're just going to output them unchanged. All you care about is '\r' and '\n' which are the same in UTF-8 as they are in ASCII. – dan04 Oct 29 '10 at 21:59

I had the same problem some time ago, and wrote down the solution I found on my blog. You might want to check it out to see if it might help, especially the function wstring_to_utf8.


  • Thank you for that, but it's not quite what I'm after, since I do not know what encoding my string will be in. For this example I just picked UTF-8. Also I don't think w_char is guaranteed to be able to contain a 4-byte character (UCS-4)? It is on Linux, but I think Windows users will face some problems here. – Oystein Oct 29 '10 at 17:27
  • 1
    The link is now broken. – Frenzy Li Jan 2 '18 at 5:05
  • That's not how you spell "had". – Millar248 Feb 8 '19 at 18:11

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