Visual Studio 14 CTP1 and later will always treat
%s as a narrow string (
char*) unless you define
_CRT_STDIO_LEGACY_WIDE_SPECIFIERS. It also added the T length modifier extension which maps to what MS calls the "natural" width. For
char* and for
In Visual Studio 13 and earlier
%c is mapped to the natural width of the function/format string and
%C is mapped to the opposite of the natural with:
printf("%c %C %s %S\n", 'a', L'B', "cd", L"EF");
wprintf(L"%c %C %s %S\n", L'a', 'B', L"cd", "EF");
You can also force a specific width by using a length modifier:
%wc always mean
%hc are always
char. (Documented for VS2003 here and VC6 here (Not sure about
%ws and when it was really added))
%s to the natural width of the function was really handy back in the days of Win9x vs. WinNT, by using the
tchar.h header you could build narrow and wide releases from the same source. When
_UNICODE is defined the functions in
tchar.h map to the wide functions and
wchar_t, otherwise the narrow functions are used and
_tprintf(_T("%c %s\n"), _T('a'), _T("Bcd"));
There is a similar convention used by the Windows SDK header files and the few format functions that exist there (wsprintf, wvsprintf, wnsprintf and wvnsprintf) but they are controlled by
TEXT and not
You probably have 3 choices to make a multi-platform project work on Windows if you want to support older Windows compilers:
1) Compile as a narrow string project on Windows, probably not a good idea and in your case swprintf will still treat %s as wchar_t*.
2) Use custom defines similar to how inttypes.h format strings work:
#define PRIs "s"
#define WPRIs L"hs"
#define PRIs "s"
#define WPRIs L"s"
printf("%" PRIs " World\n", "Hello");
wprintf(L"%" WPRIs L" World\n", "Hello");
3) Create your own custom version of swprintf and use it with Visual Studio 13 and earlier.