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According to that site ASCii value of ü is 129 but when I run printf("%d",'ü') code, output is -4. What's the cause of that?

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1  
It's not ASCII. It's extended ASCII. –  chris Apr 8 '13 at 13:05
7  
Welcome to the wonderful world of character encoding. –  Thomas Apr 8 '13 at 13:06
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There's absolutely no guarantee that the execution character set for your compiler is ASCII at all and especially not that it's that specific extended ASCII set. –  Joseph Mansfield Apr 8 '13 at 13:07
    
ASCII is language dependent –  FatihK Apr 8 '13 at 13:08
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It's not ASCII. ASCII characters do not include any accented/etc characters. –  Alexey Frunze Apr 8 '13 at 13:08

3 Answers 3

up vote 4 down vote accepted

The fact that you get a -4 is basically pure chance, as it is depending on the locale setting of your environment and the implementation of your compiler.

Others already pointed out that, depending on whether your platform considers char to be signed or not, printing a char value as if it were an integer might yield negative numbers for values of 0x80 and higher.


As for encodings (and be aware that below list is by no means exhaustive):

ü does not have an ASCII value, as (US-) ASCII only defines characters up to 0x7f (127).

IBM Codepage 437 and 850 (DOS) have ü at 0x81, which is -127 or 129 depending on signedness.

ISO-8859-1 through -4, -9, -10, and -13 through -16 as well as Windows codepages 1250 and 1252 have ü at 0xfc (-4 / 252). The other ISO-8859 encodings don't have the ü in their character set.

UTF-8 - which everyone should be using instead of those 8-bit encodings of yesteryear for a variety of reasons - encodes ü as the two-byte sequence 0xc3 0xbc.

I've put together a side-by-side codepage for personal use, if you are interested you can find it at my homepage.


Once you have stomached that, be aware that the standard defines two character sets, one for the representation of source, and one for the representation of strings in the executable code. Neither contains any characters beyond the basic A-Z range, the two might actually be different (think cross-compiler), and neither has its numerical representation defined - i.e. you might actually be looking at EBCDIC, where characters aren't even encoded with consecutive values (i.e., assert( 'Z' - 'A' == 26 ) would fail).

You think that's funny? Well, basically your machine doesn't even have to provide characters like @, as that is ASCII, but not part of the basic character set. ;-)

Generally speaking, once you use non-ASCII characters in source, you left well-defined behaviour behind and are relying on the implementation / environment.

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About using non-ASCII in source: I think it's slowly becoming normal or at least acceptable to use UTF-8 for source files. It should also be perfectly well defined behaviour on any relatively recent compiler/language. –  hyde Apr 8 '13 at 13:39
    
@hyde: Personally, I feel that every software should properly support UTF-8, but that source code should be strictly ASCII-7. Identifiers and comments should be plain English anyway for simplicity (this coming from a German). Program strings should be located in an external text file (encoded UTF-8), and handled by the localization framework. And ASCII-7 is the only encoding you can reliably, automatically test for. Which is something your environment should be set up to do before every commit. (While you're at it, check for space vs. tab indenting as well.) –  DevSolar Apr 8 '13 at 13:51
    
This is coming from first-hand pains experienced. We literally lost days hunting and fixing a bug resulting from the ambiguity of š (0x9a in Windows, 0xa8 in ISO-8859-15, 0xc5 0xa1 in UTF-8). Too many people, including otherwise skilled developers, don't know, don't care, or forget about character encodings from time to time. Text be UTF-8, source be ASCII-7. IMHO. –  DevSolar Apr 8 '13 at 13:53
    
I agree that using UTF-8 needs more care, but I've done my share of writing \xxx codes to string literals when using ASCII-only source, as well as writing less-than-ideal comments due to lack of native chars, so based on this I'd say, iff it benefits the project, deciding to use UTF-8 is sensible. It requires briefing every developer about the implications, but poor project management or developer discipline is a bad excuse. –  hyde Apr 8 '13 at 14:40
    
@hyde: Agreed - if it benefits the project, UTF-8 is the only sensible choice. (Even among the Unicode encodings, since it's the most portable, and the only one you cannot get wrong re endianess, which is the other subject a surprising many developers turn out to be ignorant of.) –  DevSolar Apr 8 '13 at 15:10

On your system char is a signed type. You should first convert to an unsigned type before printing.

printf("%d", (unsigned char)'ü');

Whether this will print the 129 you expect is another matter, but it will at least print the encoding of ü in your execution character set.

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%d is printing a signed decimal number, which for a byte would print in the range of -128-127). You probably want to use unsigned (%u) which will output the expected 0-255.

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Probably you actually want printf("%d", (unsigned char)'ü'). A negative integer is not going to convert to a unsigned value in a straightforward way. –  john Apr 8 '13 at 13:11
    
Char can be either signed or unsigned (allowed by the C and C++ standards). If it's 8-bit, it can be either -128 to +127 or 0 to 255. –  Alexey Frunze Apr 8 '13 at 13:11
    
@AlexeyFrunze: ...or -127 to +127 (ones complement or sign/magnitude). –  Jerry Coffin Apr 8 '13 at 13:13
    
Agree. Since the output is a negative value, I was presuming that the target platform's character was signed. –  Tevo D Apr 8 '13 at 13:13
    
@JerryCoffin: Or it could even be not 8 bit at all. ;-) –  DevSolar Apr 8 '13 at 14:27

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