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Help settle the debate that's going on in the comments at this question about bool and 1:

Can a standards-conforming C++ preprocessor allow one to use #define to redefine a language keyword? If so, must a standards-conforming C++ preprocessor allow this?

If a C++ program redefines a language keyword, can that program itself be standards conforming?

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I'm quite sure I've seen the last point debated here, but in terms of C99. – Potatoswatter Apr 28 '10 at 1:07
up vote 17 down vote accepted

In C++, the closest thing to forbidding #defineing a keyword is §, which only disallows it in a translation unit that includes a standard library header:

A translation unit that includes a header shall not contain any macros that define names declared or defined in that header. Nor shall such a translation unit define macros for names lexically identical to keywords.

The second sentence of that paragraph has been changed in C++0x to outright forbid #defineing a keyword (C++0x FCD §

A translation unit shall not #define or #undef names lexically identical to keywords.

Edit: As pointed out by Ken Bloom in comments to his answer, the rules have not changed in C++0x; the text has just been rearranged to confuse people like me. :-)

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So technically, in C++03 it is legal to redefine keywords, as long as you do not include a single header? I think I'm going to interpret it as "redefining keywords is forbidden", like C++0x says. :) – jalf Apr 28 '10 at 2:26
This answers the question of whether a program that redefines the keywords is standards conforming, not the technical capability of the preprocessor. – Ken Bloom Apr 28 '10 at 13:11
@Ken: Right. However, if a program violates that shall statement, then the program is ill-formed because the rule is diagnosable (i.e., it doesn't say "no diagnostic required" and doesn't say that violating it results in undefined behavior). Therefore, I think that a conforming preprocessor is at least required to warn that you are violating the rule. – James McNellis Apr 28 '10 at 13:33
@jalf, and note that, like James said, "header" in the Standard only refers to Standard library headers. You may still happily include your own source files. And note that in C++03 some keywords can't be #define'ed. These are new and delete. Now that C++0x forbids all of them, i suspect has become resolved too. (though i'm not sure why they are treated specially in preprocessing phase). – Johannes Schaub - litb Apr 28 '10 at 18:04
@James C++0x's says "A translation unit shall not #define or #undef names lexically identical to keywords.", thereby reserving those names. And says "If a program declares or defines a name in a context where it is reserved, other than as explicitly allowed by this Clause, its behavior is undefined.", so I think it's undefined behavior. C++0x got rid of "... that includes a header ...", so it certainly seems to have a different ruleset. – Johannes Schaub - litb Dec 26 '10 at 14:24

Working from the 2005-10-19 C++ working draft (since I don't have a standard handy):

Section 16.3 defines the grammar for #define to be #define identifier replacement-list-newline (object-like macros) or one of several constructions beginning with #define identifier lparen (function-like macros). identifiers are defined in section 2.10 to be identifier-nondigit | identifier identifier-nondigit | identifier digit. Section 2.11 indicates that a certain list of identifiers are unconditionally treated as keywords in phase 7 of compilation (section 2.1), and I conclude that they are therefore not treated specially in phase 4, which is preprocessor expansion. Thus, it appears that the standard requires the preprocessor to allow you to redefine language keywords (listed in Section 2.11).

However, the preprocessor has a keyword of its own, namely defined, as well as a list of predefined macros (Section 16.8). Section 16.8 states that the behavior is undefined if you redefine these, but does not prohibit the preprocessor from recognizing these as macro names.

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Note also that the identifiers true and false (since there are no "keywords" yet, they are just "identifiers") are treated specially during macro replacement. – James McNellis Apr 28 '10 at 2:11
@James: can you point out the section in the standard (or the draft) where it says this? GCC's implementation also claims to treat C++'s named operators (those #defined in iso646.h in C) specially when operating in C++ mode. – Ken Bloom Apr 28 '10 at 2:20
@Ken: "After all replacements due to macro expansion and the defined unary operator have been performed, all remaining identifiers and keywords, except for true and false, are replaced with the pp-number 0" (16.1/4). As for why the named operators are handled specially, it is because a named operator is an "operator or punctuator" preprocessing token, not an "identifier" preprocessing token. – James McNellis Apr 28 '10 at 2:27
@James and the G++ team found it necessary to allow even these to be killed:… – Joshua Apr 28 '10 at 3:20
@Ken: When I said "macro replacement" in my first comment, I meant "conditional inclusion evaluation." Sorry about that. – James McNellis Apr 28 '10 at 4:02

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