According to N3092 (final committee draft of C++11), in 16.3: Macro replacement, object-like macro is defined as:

# define identifier replacement-list new-line

and function-like macro is defined as:

# define identifier lparen identifier-list_opt ) replacement-list new-line
# define identifier lparen ... ) replacement-list new-line
# define identifier lparen identifier-list , ... ) replacement-list new-line

All have replacement-list (so-called macro value) and this is defined as:


and pp-tokens is defined as:

    pp-tokens preprocessing-token

and preprocessing-token is, for example, identifier.

As far as I read these, a macro with an empty value is well-defined.
However, 16.3-3 says:

There shall be white-space between the identifier and the replacement list in the definition of an object-like macro.

and note that replacement-list itself is not optional (though it can have an empty value).

So I believe:

//well-formed (function-like macro with value)
#define f(x) (x)<NEWLINE>

//well-formed (function-like macro without value)
#define f(x)<NEWLINE>

//well-formed (function-like macro without value)
#define f(x) <NEWLINE>

//well-formed (object-like macro with value)
#define f hello<NEWLINE>

//**ill-formed** (object-like macro without value)
#define f<NEWLINE>

//well-formed (object-like macro without value)
#define f <NEWLINE>

and thus, for example, a so-called "include guard" should be of the form:

#ifndef is_xyz_included<NEWLINE>
    #define is_xyz_included <NEWLINE> // NOTE THE SPACE BEFORE <NEWLINE>

Is my interpretation wrong?

  • 8
    It's a wording defect. Move on, nothing to see here. – n.m. May 23 at 5:13
  • 1
    @n.m.: Wording defects matter. If the intent is clear (as it is in this case, obviously #define FOO should be valid), then it doesn't directly matter either to implementers or to users. But it's worth pointing out and fixing. – Keith Thompson May 23 at 22:07

I believe your interpretation is correct. A valid include guard must therefore be of the form you describe, with a white-space that is not a newline. Not a newline because of


4 The only white-space characters that shall appear between preprocessing tokens within a preprocessing directive (from just after the introducing # preprocessing token through just before the terminating new-line character) are space and horizontal-tab (including spaces that have replaced comments or possibly other white-space characters in translation phase 3).

which precludes a new-line from being the white-space talked about in the paragraph you mentioned.

But given how common this idiom is with include guards, so much so that the standard itself contains such an example, this is probably a wording defect that is based on the assumption that a replacement list must not be empty for the macro to be of any use.

It's worth mentioning that it's a wording defect shared with the C standard, as far as my survey of the wording found.

  • Whitespaces serve to separate tokens. Otherwise they are always optional. Is that not correct? – R Sahu May 23 at 5:22
  • @RSahu - Usually. But here is one case in the OP where a white space is required, even if the tokens can be separated. For instance #define f* is still not valid under that paragraph, even though normally f* is two tokens even without the whitespace. – StoryTeller May 23 at 5:24
  • Thank you. It's seemed a reasonable answer. An additional note: the statement you cite is also found in N3092 16-4 (which I'm reading). – ynn May 23 at 5:35
  • White-space is limited to spaces and horizontal-tab between preprocessing tokens. Therefore white-space not between tokens (because no token followos) may also be new-line. – CAF May 23 at 15:45
  • @CAF - "from just after the introducing # preprocessing token through just before the terminating new-line character" - there is nothing unclear about that. # and the identifier are also preprocessing tokens. And as the OP surmised, an empty replacement list is still a replacement list, and needs a white-space. – StoryTeller May 23 at 15:47

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.