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I'm using a library and sends me std::wstring from one of its functions, and another library that requires _TCHAR [] to be sent to it. How can I convert it?

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Will the other library accept a const _TCHAR[]? I.e., does it intend to change the data? If it does, could it possibly lengthen the data? –  Karl Knechtel Dec 7 '10 at 0:14
    
Yes, a const _TCHAR[] is okay. It doesn't intend to change the data. –  coolface Dec 7 '10 at 0:25
1  
What's _TCHAR? _TCHAR is defined as wchar_t in a Unicode build, but as char in a non Unicode build. –  Zach Saw Dec 7 '10 at 0:25
    
I guess wchar_t because I'm using wstrings? –  coolface Dec 7 '10 at 0:40
    
Just because you're using std::wstring doesn't mean _TCHAR is wchar_t. Look up your build defines. –  Zach Saw Dec 7 '10 at 0:42

3 Answers 3

up vote 2 down vote accepted

Assuming you're using Unicode build, std::wstring.c_str() is what you need. Note that c_str() guarantees that the string it returns is null-terminated.

e.g.

void func(const wchar_t str[])
{
}

std::wstring src;
func(src.c_str());

If you're using non-Unicode build, you'll need to convert the Unicode string to non Unicode string via WideCharToMultiByte.

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Use the ATL and MFC String Conversion Macros. This works regardless of whether you are compiling in _UNICODE or ANSI mode.

You can use these macros even if you aren’t using MFC. Just include the two ATL headers shown in this example:

#include <string>

#include <Windows.h>

#include <AtlBase.h>
#include <AtlConv.h>

int main()
{
    std::wstring myString = L"Hello, World!";

    // Here is an ATL string conversion macro:
    CW2T pszT(myString.c_str());

    // pszT is now an object which can be used anywhere a `const TCHAR*`
    // is required. For example:
    ::MessageBox(NULL, pszT, _T("Test MessageBox"), MB_OK);

    return 0;
}
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As @Zach Saw said, if you build only for Unicode you can get away with std::wstring.c_str(), but conteptually it would be better to define a tstring (a typedef for std::basic_string<TCHAR>) so you can safely use this kind of string flawlessly with all the Windows and library functions which expect TCHARs1.

For additional fun you should define also all the other string-related C++ facilities for TCHARs, and create conversion functions std::string/std::wstring <=> tstring.

Fortunately, this work has already been done; see here and here.


  1. Actually no compiled library function can really expect a TCHAR *, since TCHARs are resolved as chars or wchar_ts at compile time, but you got the idea.
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A C++ library could expect a TCHAR*. After all, C++ has overloading on argument type. It would be an unusual build, but MSVC's name mangling can handle it. Most Win32 DLLs also expect a TCHAR, although the name mangling is set up up via the "A/W" suffix macros. –  MSalters Dec 8 '10 at 13:34
    
A compiled C++ library cannot really expect TCHAR *, it will have two separate (overloaded) functions, one accepting char * and one accepting wchar_t *, otherwise it couldn't work with projects compiled with different settings of the _UNICODE macro. That was what I intended with my note. –  Matteo Italia Dec 8 '10 at 14:22

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