Today I woke up and felt something was awfully wrong with my code and every library I've ever used, and I think I was right... (or please point out where my reasoning is wrong)
Let's start I decade or two back in time, all was well in the world. I spoke to my neighbor and he spoke the same language: just plain English. To me, my neighbor and Windows it seemed obvious to store our string in 8-bit
chars because all characters we used could be stored in the 2^8=256 available combinations.
Then the miraculous being Internet came along and allowed me to speak to some friends in Europe (who had no time to learn English). This got difficult with our
char format, the number of used characters exceeded 256 easily so in our utterly simplistic vision we decided to use the 16-bit
wchar_ts. Something called UCS-2 unicode. It has 2^16=65.536 available combinations and that must be enough for every language in the world! Convinced of our correctness we even added 16-bit Windows API
W functions like
CreateWindowW. We convinced every programmer of our religion and discouraged the use of the evil 8-bit counterparts (
CreateWindowA) and mapped a call to
MessageBox automatically to
MessageBoxW by defining
_UNICODE in our builds. Therefore we should also use the
wcs functions instead of the old
str functions (e.g.
strlen should now be
wcslen, or use the automatically mapped
Then things got bad, it turned out there were other people in the world who used even weirder glyphs (no offence) than ours: Japanese, Chinese, etc. It got bad because for example Chinese has over 70.000 different characters. A lot of swearing occurred and left us with a new type of unicode: UTF-16. It also uses a 16-bit data type but some characters require two 16-bit values (called a surrogate pair). Which means we can't use indexes on these 16-bit strings (e.g. theString may not return the 5th character). To patch the Windows API it was decided all
W functions should now support the UTF-16 format, it was an easy decision since all old UCS-2 strings were valid UTF-16 strings as well. However, because we are brave programmers, we now use the
wcs functions. Sadly these functions are not surrogate aware and still conform to the UCS-2 format...
In the meantime, in a dark attic, another more compact form of unicode was developed: UTF-8. Using an 8-bit data type most western languages can be stored in a single 8-bit value, just like in the old days. When a more exotic glyph is stored, multiple 8-bit values are used, for most European languages 2 will suffice. However it may expand up 4 of these values, essentially creating a 32-bit storage type. Just like it's fat brother UTF-16, we cannot use indexes on these strings. Because of it's more compact format UTF-8 is now widely used everywhere on the Internet because it saves bandwidth.
Good, you made it through my lengthy write-up :) Now I have some questions / points of interest:
Okay, I'm pretty satisfied with using UTF-8 for storage. When I read a file (from disk or HTTP response) I detect the UTF-8 signature
"\xEF\xBB\xBF"and put the contents through
MultiByteToWideCharwhich leaves me with an UTF-16 string. I can use that with the
WAPI functions, no problem. But now I want to modify the string, replace some characters etc. The good old
wcsfunctions are no good anymore, what core string functions are UTF-16 aware? Or is there some splendid library out there I don't know off? Edit: It seems ICU is a pretty good solution. I also found that the
wcsfunctions are not completely useless you can for instance still use
wcsstrto search, it essentially just compares
wchar_ts. The only problem is length of the string.
Don't you have the feeling an ugly mistake was made when we were forced upon using 16-bit deficient
Wfunctions. Shouldn't the problem have been recognized in a much earlier stage and let all original API functions take on UTF-8 strings and incorporate proper string manipulation routines? Or is that already possible and am I horribly mistaken? Edit: Maybe this was a silly question, hindsight is indeed wonderful, no use in putting anyone down right now ;)
For fast index access to the characters we should store strings in 32-bit values. Is this common? (I can hear you thinking: and then we hit an extraterrestrial language requiring more combinations and the fun starts all over again...) It seems the downside of this approach is that we should convert the string back to UTF-16 each time when we make Windows API calls. Edit: Just to quote Alf P. Steinbach one character per index is a hopeless dream, I see that now. One thing I completely missed out on was the diacritics. I also think it is a good thing to process in the OS's native encoding (for Windows UTF-16). Although UTF-8 would have been a better choice we're stuck with UTF-16 now, no point in converting back and forth between your code and the API. As suggested below I will keep track of parts in a string myself by pointers instead of a character count.
I think you deserved yourself a fine cup of tea struggling though this lengthy question, go get one before you answer ;)
Edit: I accept the fact my question is closed, this would be a better fit for a blog post, but then again I don't write a blog. I think this character encoding thing is essential and should be the next topic in any programming book after the simple hello world example! Posting it here draws attention of many experts, those people don't read any random blog and I highly value their opinion. So thanks everyone for contributing.