I've tried implementing a function like this, but unfortunately it doesn't work:

const wchar_t *GetWC(const char *c)
    const size_t cSize = strlen(c)+1;
    wchar_t wc[cSize];
    mbstowcs (wc, c, cSize);

    return wc;

My main goal here is to be able to integrate normal char strings in a Unicode application. Any advice you guys can offer is greatly appreciated.

  • 3
    What about the code you've given doesn't work? Please describe the problem you're having. I can guess what it is, but it would help if you would identify the problem. Nov 7, 2011 at 2:13
  • 2
    Note that strlen() is wrong, you would need to use something like mbslen() instead [which is done with mbstowcs(NULL, ...)]. UTF-8 does not have the same number of characters. Also wchar_t under MS-Windows uses UTF-16 which adds another fun thing to take in account when measuring the string length. Oct 20, 2014 at 1:28

9 Answers 9


Use a std::wstring instead of a C99 variable length array. The current standard guarantees a contiguous buffer for std::basic_string. E.g.,

std::wstring wc( cSize, L'#' );
mbstowcs( &wc[0], c, cSize );

C++ does not support C99 variable length arrays, and so if you compiled your code as pure C++, it would not even compile.

With that change your function return type should also be std::wstring.

Remember to set relevant locale in main.

E.g., setlocale( LC_ALL, "" ).

  • Won't you require C++11 to guarantee that the string buffer is stored contiguously?
    – Kerrek SB
    Nov 7, 2011 at 2:17
  • As stated in the answer, the current standard guarantees that, yes. The proposal was adopted at the Lillehammer meeting in April 2005. Nov 7, 2011 at 2:25
  • I added your code snippet and the function seems to work now! Although I didn't have to return a wstring as I just used the c_str() member function and returned that. It seems I also didn't need to call setlocale as the defaults seem to suffice for now.
    – AutoBotAM
    Nov 7, 2011 at 18:14
  • @AutoBotAM: By returning wstring.c_str(), you will have the same problem all over again. When a function exits, all local variables are destroyed, including those of type wstring. The return value of c_str() is only valid for the lifetime of its corresponding wstring object. Although your code might look like it runs correctly, it is accessing memory that has been freed and it will mysteriously fail some day for reasons that are not obvious to you at the time. Nov 7, 2011 at 20:49
  • 2
    The question clearly states that target type is wchar_t, not wstring. Why si this offtopic answer marked as a solution?
    – masiton
    Aug 31, 2020 at 8:25

In your example, wc is a local variable which will be deallocated when the function call ends. This puts you into undefined behavior territory.

The simple fix is this:

const wchar_t *GetWC(const char *c)
    const size_t cSize = strlen(c)+1;
    wchar_t* wc = new wchar_t[cSize];
    mbstowcs (wc, c, cSize);

    return wc;

Note that the calling code will then have to deallocate this memory, otherwise you will have a memory leak.

  • 4
    it's not nice to teach novices bad practices like using raw new. you should at the very least mention what that entails. and alternatives. Nov 7, 2011 at 2:36
  • 1
    @Alexis Wilke - Care to explain more? Oct 20, 2014 at 8:00
  • 2
    strlen() on an mbstring does not return the size of the wstring. You would need to do cSize = mbstowcs(NULL, c, 0) + 1; to get the correct size. Oct 20, 2014 at 10:33
  • 1
    @Alexis Wilke - Why do you think that c is an mbstring? Oct 20, 2014 at 11:46
  • 1
    Why do you use mbstowcs() otherwise?! If the locale changes on your, multiple bytes may represent a single UTF-16 character and other sequences may represent two entries in UTF-16 (some Chinese and such is encoded using 4 bytes per character.) Oct 20, 2014 at 22:43
const char* text_char = "example of mbstowcs";
size_t length = strlen(text_char );

Example of usage "mbstowcs"

std::wstring text_wchar(length, L'#');

//#pragma warning (disable : 4996)
// Or add to the preprocessor: _CRT_SECURE_NO_WARNINGS
mbstowcs(&text_wchar[0], text_char , length);

Example of usage "mbstowcs_s"

Microsoft suggest to use "mbstowcs_s" instead of "mbstowcs".


Mbstowcs example

mbstowcs_s, _mbstowcs_s_l

wchar_t text_wchar[30];

mbstowcs_s(&length, text_wchar, text_char, length);
  • call to mbstowcs_s above is missing an arg?
    – lalitm
    Dec 21, 2017 at 6:01

You're returning the address of a local variable allocated on the stack. When your function returns, the storage for all local variables (such as wc) is deallocated and is subject to being immediately overwritten by something else.

To fix this, you can pass the size of the buffer to GetWC, but then you've got pretty much the same interface as mbstowcs itself. Or, you could allocate a new buffer inside GetWC and return a pointer to that, leaving it up to the caller to deallocate the buffer.

  • The C++ way is to not do raw new (in general). E.g. std::wstring is the natural result type here. At least when you don't have anything better. Also, with the code regarded as C++ he is not returning anything. The code won't compile as C++. Nov 7, 2011 at 2:22

The question has several problems, but so do some of the answers. The idea of returning a pointer to allocated memory "and leaving it up to the caller to de-allocate" is asking for trouble. As a rule the best pattern is always to allocate and de-allocate within the same function. For example, something like:

wchar_t* buffer = new wchar_t[get_wcb_size(str)];
mbstowcs(buffer, str, get_wcb_size(str) + 1);
delete[] buffer;

In general, this requires two functions, one the caller calls to find out how much memory to allocate and a second to initialize or fill the allocated memory. Unfortunately, the basic idea of using a function to return a "new" object is problematic -- not inherently, but because of the C++ inheritance of C memory handling. Using C++ and STL's strings/wstrings/strstreams is a better solution, but I felt the memory allocation thing needed to be better addressed.

  • get_wcb_size doesn't seem to be a thing. If you google it, this answer is the only result.
    – Mgamerz
    May 22 at 16:40

Your problem has nothing to do with encodings, it's a simple matter of understanding basic C++. You are returning a pointer to a local variable from your function, which will have gone out of scope by the time anyone can use it, thus creating undefined behaviour (i.e. a programming error).

Follow this Golden Rule: "If you are using naked char pointers, you're Doing It Wrong. (Except for when you aren't.)"

I've previously posted some code to do the conversion and communicating the input and output in C++ std::string and std::wstring objects.


I did something like this. The first 2 zeros are because I don't know what kind of ascii type things this command wants from me. The general feeling I had was to create a temp char array. pass in the wide char array. boom. it works. The +1 ensures that the null terminating character is in the right place.

char tempFilePath[MAX_PATH] = "I want to convert this to wide chars";

int len = strlen(tempFilePath);

// Converts the path to wide characters
    int needed = MultiByteToWideChar(0, 0, tempFilePath, len + 1, strDestPath, len + 1);

Andrew Shepherd 's answer.

Andrew Shepherd 's answer is Good for me, I add up some fix : 1, remove the ending char L'\0', casue sometime it will trouble. 2, use mbstowcs_s

std::wstring wtos(std::string& value){
    const size_t cSize = value.size() + 1;

    std::wstring wc;

    size_t cSize1;
    mbstowcs_s(&cSize1, (wchar_t*)&wc[0], cSize, value.c_str(), cSize);


    return wc;
auto Ascii_To_Wstring = [](int code)->std::wstring
    if (code>255 || code<0 )
        throw std::runtime_error("Incorrect ASCII code");
    std::string s{ char(code) };

    std::wstring w{ s.begin(),s.end() };
    return w;

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