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#include <stdio.h>
#include <wchar.h>
#define USE_W
int main()
#ifdef USE_W
    const wchar_t *ae_utf16 = L"\x00E6 & ASCII text ae\n";
    const char *ae_utf8 = "\xC3\xA6 & ASCII text ae\n";
    return 0;


ae & ASCII text ae

While printf produces correct UTF-8 output:

æ & ASCII text ae

You can test this here.

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up vote 2 down vote accepted

printf just sends raw bytes to your terminal; it does not know anything about encodings. If your terminal happens to be configured to interpret that as UTF-8, it will show the right characters.

wprintf, on the other hand, does know about encodings. It behaves as though it uses the function wcrtomb, which encodes a wide character (wchar_t) into a multibyte sequence, depending on the current locale. If the default locale happens to be "C", which is quite minimalistic, the character æ gets converted to the "more or less equivalent" byte sequence ae.

If you set the locale explicitly to something using UTF-8, like "en_US.UTF-8", the output is as expected. Of course, the set of supported locales differs per system, so it's no good to hardcode this.

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Thank you for information about the requirement to set a locale before using wprintf. – user206334 Apr 8 '13 at 10:40

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