24
CString output ;
const WCHAR* wc = L"Hellow World" ;
if( wc != NULL )
{   
     output.Append(wc);
}
printf( "output: %s\n",output.GetBuffer(0) );
3
  • 1
    Please add an explanation, as pure code, doesn't say much.
    – Kao
    Sep 28, 2012 at 10:17
  • You don't need GetBuffer. CString has a LPCTSTR operator which accesses the internal buffer.
    – MikMik
    Sep 28, 2012 at 10:22
  • 1
    what should be the output if wc is привет мир? do you care about code pages or this is just wide -> narrow conversion with all wide characters being ANSI characters? Sep 28, 2012 at 10:55

7 Answers 7

35

you can also try this:

#include <comdef.h>  // you will need this
const WCHAR* wc = L"Hello World" ;
_bstr_t b(wc);
const char* c = b;
printf("Output: %s\n", c);

_bstr_t implements following conversion operators, which I find quite handy:

operator const wchar_t*( ) const throw( ); 
operator wchar_t*( ) const throw( ); 
operator const char*( ) const; 
operator char*( ) const;

EDIT: clarification with regard to answer comments: line const char* c = b; results in a narrow character copy of the string being created and managed by the _bstr_t instance which will release it once when it is destroyed. The operator just returns a pointer to this copy. Therefore, there is no need to copy this string. Besides, in the question, CString::GetBuffer returns LPTSTR (i.e. TCHAR*) and not LPCTSTR (i.e. const TCHAR*).

Another option is to use conversion macros:

USES_CONVERSION;
const WCHAR* wc = L"Hello World" ;
const char* c = W2A(wc);

The problem with this approach is that the memory for converted string is allocated on stack, so the length of the string is limited. However, this family of conversion macros allow you to select the code page which is to be used for the conversion, which is often needed if wide string contains non-ANSI characters.

7
  • I'm so tempted to +1 this. _bstr_t and _variant_t used to be my best friends back in the days when you really needed ATL to do a decent COM component in C++
    – sehe
    Sep 28, 2012 at 10:13
  • why would it copy it? your code shows just that you need to use it in printf. _bstr_t will take care of releasing the memory. If you need to keep a copy and send the string around, use the _bstr_t instance, not const char* - in this sense, _bstr_t is similar to CString. It takes care of copying the string data properly when multiple copies of the object are used (although it doesn't use copy-on-write). Sep 28, 2012 at 10:30
  • const WCHAR* wc = L"Hellow World" ; c = _bstr_t(wc);printf( "output: %s\n",c );
    – jack
    Sep 28, 2012 at 10:36
  • output is like this: ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■ε■
    – jack
    Sep 28, 2012 at 10:58
  • is your _bstr_t object still alive at that moment? According to your code sample it is. Sep 28, 2012 at 10:59
13

You can use sprintf for this purpose:

const char output[256];
const WCHAR* wc = L"Hellow World" ;
sprintf(output, "%ws", wc );
1
  • 10
    I don't think you can declare output as const
    – CinCout
    Jun 15, 2016 at 4:54
6

My code for Linux

// Debian GNU/Linux 8 "Jessie" (amd64)

#include <locale.h>
#include <stdlib.h>
#include <stdio.h>

// Use wcstombs(3) to convert Unicode-string (wchar_t *) to UTF-8 (char *)
// http://man7.org/linux/man-pages/man3/wcstombs.3.html

int f(const wchar_t *wcs) {
        setlocale(LC_ALL,"ru_RU.UTF-8");
        printf("Sizeof wchar_t: %d\n", sizeof(wchar_t));
        // on Windows, UTF-16 is internal Unicode encoding (UCS2 before WinXP)
        // on Linux, UCS4 is internal Unicode encoding
        for (int i = 0; wcs[i] > 0; i++) printf("%2d %08X\n",i,wcs[i]);
        char s[256];
        size_t len = wcstombs(s,wcs,sizeof(s));
        if (len > 0) {
                s[len] = '\0';
                printf("mbs: %s\n",s);
                for (int i = 0; i < len; i++)
                        printf("%2d %02X\n",i,(unsigned char)s[i]);
                printf("Size of mbs, in bytes: %d\n",len);
                return 0;
        }
        else return -1;
}

int main() {
        f(L"Привет"); // 6 symbols
        return 0;
}

How to build

#!/bin/sh
NAME=`basename $0 .sh`
CC=/usr/bin/g++-4.9
INCS="-I."
LIBS="-L."
$CC ${NAME}.c -o _${NAME} $INCS $LIBS

Output

$ ./_test 
Sizeof wchar_t: 4
 0 0000041F
 1 00000440
 2 00000438
 3 00000432
 4 00000435
 5 00000442
mbs: Привет
 0 D0
 1 9F
 2 D1
 3 80
 4 D0
 5 B8
 6 D0
 7 B2
 8 D0
 9 B5
10 D1
11 82
Size of mbs, in bytes: 12
1

It's quite easy, because CString is just a typedef for CStringT, and you also have access to CStringA and CStringW (you should read the documentation about the differences).

CStringW myString = L"Hello World";
CString myConvertedString = myString;
2
  • Yes, I realise that, but it was written that way to be closer to his example code. Sep 28, 2012 at 12:32
  • What does this conversion do with wide chars that don't have a matching narrow char?
    – M.M
    Apr 4, 2014 at 11:51
1

You could do this, or you could do something cleaner:

std::wcout << L"output: " << output.GetString() << std::endl;
3
  • 1
    Why to use GetBuffer()? Here is GetString() official C-string getter!
    – Rost
    Sep 28, 2012 at 10:43
  • @Rost copy-paste :D No need to yell :D Sep 28, 2012 at 10:46
  • 3
    Copy-paste is evil!!! Real developers always retype char by char! Don't you know?!? :-D
    – Rost
    Sep 28, 2012 at 10:50
1

You can use the std::wcsrtombs function.

Here is a C++17 overload set for conversion:

#include <iostream> // not required for the conversion function

// required for conversion
#include <cuchar>
#include <cwchar>
#include <stdexcept>
#include <string>
#include <string_view> // for std::wstring_view overload

std::string to_string(wchar_t const* wcstr){
    auto s = std::mbstate_t();
    auto const target_char_count = std::wcsrtombs(nullptr, &wcstr, 0, &s);
    if(target_char_count == static_cast<std::size_t>(-1)){
        throw std::logic_error("Illegal byte sequence");
    }

    // +1 because std::string adds a null terminator which isn't part of size
    auto str = std::string(target_char_count, '\0');
    std::wcsrtombs(str.data(), &wcstr, str.size() + 1, &s);
    return str;
}

std::string to_string(std::wstring const& wstr){
    return to_string(wstr.c_str());
}

std::string to_string(std::wstring_view const& view){
    // wstring because wstring_view is not required to be null-terminated!
    return to_string(std::wstring(view));
}

int main(){
    using namespace std::literals;

    std::cout
        << to_string(L"wchar_t const*") << "\n"
        << to_string(L"std::wstring"s) << "\n"
        << to_string(L"std::wstring_view"sv) << "\n";
}

If you use Pre-C++17, you should urgently update your compiler! ;-)

If this is really not possible, here is a C++11 version:

#include <iostream> // not required for the conversion function

// required for conversion
#include <cwchar>
#include <stdexcept>
#include <string>

std::string to_string(wchar_t const* wcstr){
    auto s = std::mbstate_t();
    auto const target_char_count = std::wcsrtombs(nullptr, &wcstr, 0, &s);
    if(target_char_count == static_cast<std::size_t>(-1)){
        throw std::logic_error("Illegal byte sequence");
    }

    // +1 because std::string adds a null terminator which isn't part of size
    auto str = std::string(target_char_count, '\0');
    std::wcsrtombs(const_cast<char*>(str.data()), &wcstr, str.size() + 1, &s);
    return str;
}

std::string to_string(std::wstring const& wstr){
    return to_string(wstr.c_str());
}

int main(){
    std::cout
        << to_string(L"wchar_t const*") << "\n"
        << to_string(std::wstring(L"std::wstring")) << "\n";
}
0

You can use sprintf for this purpose, as @l0pan mentions (but I used %ls instead of %ws):

char output[256];
const WCHAR* wc = L"Hello World" ;
sprintf(output, "%ws", wc ); // did not work for me (Windows, C++ Builder)
sprintf(output, "%ls", wc ); // works
0

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