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C and POSIX both require only a very limited set of characters be present in the C/POSIX locale, but allow additional characters to exist. This leaves a great deal of freedom to the implementation; for instance, supporting all of Unicode (as UTF-8) in the C locale is conforming behavior. However, most historical implementations treat the C locale as having an "8-bit-clean" single-byte character encoding, either ISO-8859-1 (Latin-1) or a sort of "abstract 8-bit character set" where the non-ASCII bytes are abstract characters with no particular identity. (However, in the latter case, if the compiler defines __STDC_ISO_10646__, they normatively correspond to Unicode characters, usually the Latin-1 range.)

Another conforming option that seems much less popular is to treat all non-ASCII bytes as non-characters, i.e. respond to them with an EILSEQ error.

What I'm interested in knowing is whether there are implementations which take this or any other unusual options in implementing the C locale. Are there implementations where attempting to convert "high bytes" in the C locale results in EILSEQ or anything other than treating them as (abstract or Latin-1) single-byte characters or UTF-8?

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so the question is, given two options given by the standard, whether the less popular version is implemented anywhere? Also I think you should be a lot more careful in your wording: glyph, character and code point are different idea, even though they can overlap. – 0xC0000022L Apr 8 '13 at 23:03
I don't see there being "two options", rather a whole range of options. All that's required by POSIX is that the C/POSIX locale contain the specified set of single-byte characters. Whether any other characters exist at all in this locale is unspecified (XBD 7.2 paragraph 2). The majority of implementations define each remaining byte as being a single-byte character (often treating them as the Latin-1 characters), but there is no requirement to do this. They could also be used in a multi-byte encoding (like UTF-8 or a legacy CJK DBCS) or not defined as characters at all (EILSEQ). – R.. Apr 9 '13 at 1:01
XBD 7.2 is actually a bit confusing in this regard. The first paragraph ("The behavior of standard utilities and functions in the POSIX locale shall be as if the locale was defined via the localedef utility with input data from the POSIX locale tables in Locale Definition.") makes it sound like EILSEQ is required for bytes not explicitly defined as characters in the tables, but this does not match historical behavior, and the second paragraph turns around and makes the behavior explicitly unspecified. – R.. Apr 9 '13 at 1:03
Anyway, I'm just looking for examples of implementations that don't match the most popular historic behavior of treating each byte as a single-byte character in the C/POSIX locale. – R.. Apr 9 '13 at 1:03
up vote 10 down vote

From your comment to the previous answer:

The ways in which the assumption could be wrong are basically that bytes outside the portable character set could be illegal non-character bytes (EILSEQ) or make up some multibyte encoding (UTF-8 or a stateless legacy CJK encoding)

Here you can find one example.

Plan 9 only supports the "C" locale. As you can see in utf.c and rune.c, when it find a rune outside the portable characters, it simply handles it as a character from a different encoding.

Another candidates could be Minix and the *BSD family (as far as they use citrus). In the Minix source code I've also found the file command looking for new encoding when the character size is not 8bit.

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+1 for actually answering the question. I'm not going to accept this answer (though I might give you the bounty and then open a new one if nobody else comes up with a better answer) since Plan 9 does not claim or attempt to conform to POSIX, and it's already the canonical example of a pure UTF-8 system. I'm really looking for some examples that attempt to be POSIX systems. – R.. Apr 9 '13 at 1:05
Sorry, I missed the deadline for assigning the bounty, but since I upvoted your answer it seems to have automatically been assigned half the bounty value. – R.. Apr 10 '13 at 5:24
@R.. btw... can I ask "why"? – Giacomo Tesio Apr 10 '13 at 23:28
See the thread "[1003.1(2008)/Issue 7 0000663]: Specification of str[n]casecmp is ambiguous" on The aim is to show diversity of historical practice as a reason not to make a change in the standard that precludes UTF-8-only implementations. – R.. Apr 10 '13 at 23:47
Funny! I vote for that (pro UTF-8, I mean). :-) I'm just not sure that the citrus link are historical: they are still there. BTW, this could be useful too. – Giacomo Tesio Apr 10 '13 at 23:58

"What I'm interested in knowing is whether there are implementations which take this or any other unusual options in implementing the C locale."

This question is very difficult to answer because it mixes the "C Locale", which I'm assuming refers to the C Standard limited character set mentioned above, with "other unusual options", which I'm assuming refers to how the specific implementation handles characters outside the (limited) C locale. Every C Implementation must implement the C Locale; I don't think there's any unusual options surrounding that.

Let's assume for argument that the question is: "...unusual options in implementing additional/extended characters beyond the C locale." Now this becomes an implementation-dependent question, and as you have already mentioned, it "leaves a great deal of freedom to the implementation." So without knowing the target compiler/hardware, it would still be difficult to answer definitively.

Now the last part:

"...attempting to convert "high bytes" in the C locale results in EILSEQ or anything other than treating them as (abstract or Latin-1) single-byte characters or UTF-8?"

Instead of converting high bytes while in the C Locale, you might be able to set the Locale in your program as in this SO Question: Does the underlying character set depend only on the C implementation?

This way you can ensure that your characters will be treated in the Locale that you expect.

It is my understanding that the C Locale only concerns itself with the first 7-bits (of an 8-bit char type), based on the sources below:

The terms "high bytes" and "Unicode" and "UTF-8" are in the class of multi-byte or wide-character encodings, and are very locale specific (and beyond the range of the minimal C Locale). I'm not clear on how it would be possible to "convert high bytes" in the (pure) C Locale. It's quite possible that implementations would pick a default (extended) locale if none was explicitly set (or pull it from the OS environment settings as stated in one of the links above).

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Thanks for taking the time to post an answer. What I'm looking for though is not a way to get characters treated the way I want, but information on whether there are existing implementations with the properties I mentioned. – R.. Apr 6 '13 at 3:14
Did a bit more digging (see edited post above), and the more I look the more it seems to be in the "undefined behavior" category. If you're going with multi-byte or wide-character encoding, it feels like you cannot rely on the C Locale for conversion... – SeKa Apr 6 '13 at 11:11
Again, that's not what the question is about. The topic of the question is that some people, wrongly, assume that in the C/POSIX locale, each byte is a (single-byte) character, and I'm looking for evidence of implementations where this assumption is wrong in one or more ways. – R.. Apr 7 '13 at 1:46
The ways in which the assumption could be wrong are basically that bytes outside the portable character set could be illegal non-character bytes (EILSEQ) or make up some multibyte encoding (UTF-8 or a stateless legacy CJK encoding). – R.. Apr 7 '13 at 13:59
"assume that in the C/POSIX locale, each byte is a (single-byte) character" <-- I don't think this is a wrong/bad assumption, as the C Locale only defines 7-bits (of a single-byte) encoding scheme. The bad assumption would come if you assume your input is in this type of encoding when it is not. While in the C/POSIX Locale, I would think that your program would (blindly) process characters as single bytes, and only concern itself with the standard 7-bit ASCII w/i that byte. (I'm sorry I wish I could be more help but I clearly don't understand the question.) – SeKa Apr 8 '13 at 9:29

Amusingly, I just found that the most widely-used implementation, glibc, is an example of what I'm looking for. Consider this simple program:

#include <stdlib.h>
#include <stdio.h>
int main()
        wchar_t wc = 0;
        int n = mbtowc(&wc, "\x80", 1);
        printf("%d %.4x\n", n, (int)wc);

On glibc, it prints -1 0000. If the byte 0x80 were an extended character in the implementation's C/POSIX locale, it would print 1 followed by some nonzero character number.

Thus, the "common knowledge" that the C/POSIX locale is "8-bit-clean" on glibc is simply false. What's going on is that there's a gross inconsistency; despite the fact that all the standard utilities, regular expression matching, etc. are specified to operate on (multibyte) characters as if read by mbrtowc, the implementations of these utilities/functions are taking a shortcut when they see MB_CUR_MAX==1 or LC_CTYPE containing "C" (or similar) and reading char values directly instead of processing input with mbrtowc or similar. This is leading to an inconsistency between the specified behavior (which, as their implementation of the C/POSIX locale is defined, would have to treat high bytes as illegal sequences) and the implementation behavior (which is bypassing the locale system entirely).

With all that said, I am still looking for other implementations with the properties requested in the question.

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+1 Quite incredible. In the mbtowc source code you can find a worrisome warning, that intimate to use mbrtowc instead. mbrtowc however is sensible to the locale: what's wrong with it? By using this second function, utilities do not bypass the locale... do they? – Giacomo Tesio Apr 14 '13 at 20:51
I just used mbtowc rather than mbrtowc because it made the example simpler, but either can be used. Except in a locale with stateful encoding, as long as you always pass large enough n that a whole character can be read, mbrtowc is safe to use. It's actually required by POSIX to be thread-safe too. By the way, the C/POSIX locale is required by POSIX to be stateless (and FYI, UTF-8 is stateless in this definition). – R.. Apr 14 '13 at 21:52
As for "bypassing the locale", neither mbrtowc nor mbtowc bypasses it. What's going on is that coreutils (and regex/fnmatch/glob code, etc.) are skipping calling mbtowc or mbrtowc when MB_CUR_MAX==1 or when the locale is "C" (not sure which), and just processing bytes manually. This is what "ignoring the locale" means, at least to me. – R.. Apr 14 '13 at 21:54

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