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The name of the programming language C++ derives from the parent language C and the ++ operator (it should arguably be ++C) and, hence, the expression C++ may naturally occur in C++ programs. I was wondering whether you can write a valid C++ program using the 2011 standard (without extensions) and containing the expression C++11 not within quotes and after pre-processing (note: edited the requirement, see also answer).

Obviously, if you could write a C++ program prior to the 2011 standard with the expressions C++98 or C++03, then the answer is a trivial yes. But I don't think that was possible (though I don't really know). So, can it be done with the new armory of C++11?

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    Written alone, C++ grammar would always parse C++11 as ((C)++)11) (ordering, not literal parenthesis). And given any symbol x, x11 doesn't seem to be parseable.
    – Drew Dormann
    Apr 4, 2013 at 16:14
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    Hm, I'm not convinced this question is off topic. It's specific, it's unique to the programming profession, it's answerable, and although not visibly practical, it's a "fun" question whose answer may contain interesting or insightful information about syntax. At least, I've seen other "fun" questions that haven't been closed as being off topic.
    – Andrew Cheong
    Apr 4, 2013 at 16:28
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    c + + 11 is valid (as is c+ +11 of course)
    – hexist
    Apr 4, 2013 at 16:44
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    If macros were allowed this would be easy: #define C (newline) C++11[(char*)0];
    – Aaron
    Apr 4, 2013 at 16:59
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    #include <C++11.hpp> is not a string actually (h-char-sequence).
    – dyp
    Apr 4, 2013 at 18:32

3 Answers 3

Reset to default
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NO if we require the characters C++11 to be outside any literal, after preprocessing -- because at translation phase 7 the three tokens will be identifier, ++ and integer-literal

The first two tokens are a postfix-expression, the later is a primary.

There is no reduction in the grammar that can contain these two nonterminals in sequence, so any program containing C++11 will fail syntax analysis.

However, if you do not consider character literals to be strings, then the answer is YES as you can contain it in a wide character literal:

int main()
{
    wchar_t x = L'C++11';
}

which does not use the preprocessor or a string literal, and the construct is required to be supported by the standard:

The value of a wide-character literal containing multiple c-chars is implementation-defined.

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  • hmmm. the answer has changed since I accepted it. I don't like that (you could have written another one). The trem "string" in my question is ambiguous: it could be narrowly interpreted as std::string, but I would regard anything within quotes (single or double) as "string".
    – Walter
    Apr 6, 2013 at 8:34
  • rather than unaccepting your answer, I edited it. I hope that's okay for you. thanks for you effort!
    – Walter
    Apr 6, 2013 at 8:45
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    It is wildly inappropriate to edit someones answer to completely change the semantic content, especially when you don't know the difference between a character literal and a string literal.
    – Andrew Tomazos
    Apr 6, 2013 at 13:06
  • sorry, no harm intended. I object, though, to your completely change the semantic content -- I don't think I did that, so my edit was not wildly inappropriate, I merely tried to adapt the answer to remain an acceptable one.
    – Walter
    Apr 6, 2013 at 17:34
  • The reasoning doesn't take into account that n++11 for example can occur inside a valid program (if n belongs to return).
    – ipc
    Apr 6, 2013 at 18:25
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So, can it be done with the new armory of C++11?

No.

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    hmm. I could just believe you, but I rather accept and answer that comes with some good arguments.
    – Walter
    Apr 5, 2013 at 23:50
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    @Walter: I can't prove a negative to you, unless you want me to quote the entire C++11 standard. All the "good arguments" in other answers apply to previous C++ standards too, and are therefore not part of answering your question "has this changed in C++11?"
    – Lightness Races in Orbit
    Apr 6, 2013 at 14:02
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Define “valid C++ program”.

The C++ standard defines a “well-formed C++ program” as “a C++ program constructed according to the syntax rules, diagnosable semantic rules, and the One Definition Rule”. This leaves open the possibility of C++ programs that are not well-formed. (C explicitly has the notion of programs that are conforming but not strictly conforming, e.g., that use extensions of a particular compiler.)

If you consider it valid to use extensions, then you can implement a C++ compiler that permits C++11 in some context.

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  • +1 for the idea. But extensions are, obviously, not allowed. They alter the language. With extensions almost anything can be rendered valid.
    – Walter
    Apr 6, 2013 at 10:31

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