First you have to answer a question: What is the encoding of your string? Is it ISO-8859-1? Or perhaps ISO-8859-8? Or Windows Codepage 1252?
If it is UTF-8, you are already deceiving yourself into believing that you are still in control of things, because you are storing a multibyte character sequence in a container that is not aware of the multibyte concept. Even something as simple as
.length() is lying to you,
.substr() is a ticking timebomb. (Because splitting a multibyte sequence will result in an invalid (sub-) string.)
And as soon as you try something like
std::toupper( 'ß' ), in any encoding, you are in deep trouble. (Because it's simply not possible to do this "right" with the standard library, which can only deliver one result character, not the
"SS" needed here.)
Then there is the point that the standard library is depending on which locales are supported on the machine your software is running on... and what do you do if it isn't?
So what you are really looking for is a string class that is capable of dealing with all this correctly, and that is not
While Boost looks nice, API wise, Boost.Locale is basically a wrapper around ICU. If Boost is compiled with ICU support... if it isn't, Boost.Locale is limited to the locale support compiled for the standard library.
And believe me, getting Boost to compile with ICU can be a real pain sometimes. (There are no pre-compiled binaries for Windows, so you'd have to supply them together with your application, and that opens a whole new can of worms...)
So personally I would recommend getting full Unicode support straight from the horse's mouth and using the ICU library directly:
char const * someString = "Eidenges\xe4\xdf";
icu::UnicodeString someUString( someString, "ISO-8859-1" );
std::cout << someUString.toLower() << "\n";
std::cout << someUString.toUpper() << "\n";
Compile (with G++ in this example):
g++ -Wall example.cpp -licuuc -licuio
There you are. ;-)