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Many texts warn that processing char values as integers isn't portable, e.g. assuming that the value of 'A' is 65 (as in ASCII).

But what determines whether this character set is ASCII (or an extended form), or some other character set? Is it determined by the operating system, or the compiler? I'm presuming that this isn't dependent on the hardware.

For example, could an Intel PC have a character set such as EBCDIC (in theory)? And could changing the LANG environment variable in Linux/Unix change the values of the basic character set for C programs (if then recompiled)?

(edit: I see now that the various non-Latin character sets in Linux all have the same basic ASCII codes, e.g. KOI8-U - I assumed that there were variations that had character sets not compatible with ASCII)

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I think this is implementation defined. –  Tony The Lion Mar 6 '13 at 15:27
The compiler decides. Of course, some decisions would make it such a compiler much less useful. –  R. Martinho Fernandes Mar 6 '13 at 15:28
Sure, anything could happen. The real question is, will this ever happen. –  Richard J. Ross III Mar 6 '13 at 15:30

3 Answers 3

up vote 3 down vote accepted

The standard doesn't care about any of those details, as far as it's concerned there's only "the implementation".

In practice, hardware and OSes can both specify implementation details that C implementations on that platform are expected to use, or that they're required to use if they want to inter-operate with system functions (that is to say, code that is supplied with the OS or with the hardware). So we often say things like, "on Win32, sizeof(void*) == 4". This is a shorthand, though, since someone could, if they chose, write a C implementation that runs on 32 bit Windows and has a different pointer size. What we really mean is, "in the Win32 ABI, sizeof(void*) == 4, and C implementations running on Win32 that don't follow the Win32 ABI are excluded from consideration".

Implementations therefore can do whatever they like, provided they don't mind whether or not they can (for example) use dlls that follow the system's conventions. The character set can be defined however the writer of the compiler and standard libraries likes, subject only to what's in the standard.

That said, the values of character literals are compile-time constants. This tells you that the basic execution character set cannot change during runtime.

Furthermore, if it were to depend on an environment variable then it would be somebody's responsibility to ensure that the program was run with the same value that it was compiled with. This would be pretty user-unfriendly, but the standard doesn't actually forbid someone from writing a C implementation with peculiar restrictions on how programs are run.

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My question about the environment variable was rather this - assuming that Linux for instance has character sets available that aren't ASCII based (via the LANG variable), if you compiled a program with an ASCII character set, and then again with a non-ASCII character set in the same OS, would you get different constants? –  teppic Mar 6 '13 at 15:47
@teppic: if you had a compiler that lets you vary the character set then yes, you'd get different values. I wouldn't be all that surprised if gcc has an EBCDIC option somewhere. The point is that if you ran the program with the non-ASCII character set against a standard library that uses ASCII, then for example isspace might not work. –  Steve Jessop Mar 6 '13 at 15:47
Ok. I guess I'm wondering whether you could end up with the same OS producing (by default) different codes depending on locale settings. e.g. if someone is running Linux with a locale that isn't compatible with ASCII, whether the implementation would just use ASCII values anyway, or if code that depended on ASCII values would break. –  teppic Mar 6 '13 at 15:54
@teppic: there are no Linux locales that aren't compatible with ASCII, so the issue doesn't arise. The extended execution character set can change, though (and the multi-byte encoding). If you have strings embedded in your code in the "wrong" encoding then they'll misbehave when you change locale. But the basic character set is a binary compatibility issue, changing that is like trying to change the size of int or the signed-ness of char (which gcc does have an option for, btw). It becomes a "different" C implementation. –  Steve Jessop Mar 6 '13 at 16:12
@SteveJessop: Ah thanks. I didn't realise that all Linux characters sets were compatible with ASCII (which would make sense if system libraries depended on it). I assume this is true for basically any Unix implementation that uses an ASCII-compatible character set. –  teppic Mar 6 '13 at 16:16

The C standard says this:

§5.2.1/1 in C99

Two sets of characters and their associated collating sequences shall be defined: the set in which source files are written (the source character set), and the set interpreted in the execution environment (the execution character set). Each set is further divided into a basic character set, whose contents are given by this subclause, and a set of zero or more locale-specific members (which are not members of the basic character set) called extended characters. The combined set is also called the extended character set. The values of the members of the execution character set are implementation-defined.

At startup the compiler must use the C locale, it will only pick up the OS's locale, when setlocale(LC_ALL, ""); is called.

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What does this say in regard to the question, about whether the character set depends on the C implementation? –  Eric Postpischil Mar 6 '13 at 16:07
@EricPostpischil "implementation defined" means it depends on the implementation. –  Tony The Lion Mar 6 '13 at 16:11
What I am asking is why mentioning the OS’s locale is relevant. Are you trying to say that switching to the OS’s locale can change the C implementation’s definition of the character set? Then I would disagree; the OS’s locale is part of the implementation. If you are merely saying that the locale can be changed but not saying that does change’s the implementation’s definition of the character set, then I do not see the point; speaking about the locale has not provided any information related to the question. –  Eric Postpischil Mar 6 '13 at 16:16
@EricPostpischil: Whether Tony's saying it or not, yes, changing the locale can change the character set, what characters are valid, how they're interpreted, etc. –  Jerry Coffin Mar 6 '13 at 16:21
@JerryCoffin: Whether the character set changes is not the question. The question is whether the C implementation determines the character set (including changes) or something else affects it. –  Eric Postpischil Mar 6 '13 at 16:23

The compiler clearly determines which source and execution character set is used, since cross-compilation can occur (eg. compiling code for an IBM mainframe that uses EBCDIC on your Linux box that uses ASCII).

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So the compiler determines that all x86 Linux code uses ASCII, and that's set in the implementation? What about an x86 Linux box using a character set that isn't ASCII based? –  teppic Mar 6 '13 at 15:34
@teppic "So the compiler determines that all x86 Linux code uses ASCII, and that's set in the implementation?" I didn't say that; I was giving an example. Which compiler are you referring to? "What about an x86 Linux box using a character set that isn't ASCII based?" I presume this configuration wouldn't have any use for code that uses the ASCII character set, without any translation mechanism. –  undefined behaviour Mar 6 '13 at 15:37
@modifiablelvalue , so you are implying you can compile code of an IBM that uses EBCDIC , on a x86 linux ? –  Barath Bushan Mar 6 '13 at 16:00
@BarathBushan Such a compiler would be a conformant C translator. Sure. –  undefined behaviour Mar 6 '13 at 16:10
@modifiablelvalue , ya i figured , so in short , even though there is system specific encoding , all systems do support ASCII , in its native form without any customizations –  Barath Bushan Mar 6 '13 at 16:15

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