6

What happens when I have multiple #defines with the same name in one sourcefile:

for example:

#define Dummy 1
#define Dummy 2

I do NOT intend to use it, but saw something similar in production code. Is this covered by the standard?

  • 3
    Note that you could try this. – Jean-François Fabre Mar 23 '18 at 10:18
  • 6
    @Jean-FrançoisFabre This would give me an answer for the specific (pre-)compiler I use, but might change if I use another one. Thats why I ask. – Kami Kaze Mar 23 '18 at 10:20
  • 3
    @Lundin Different compilers do different things, if the behaviour is implementation defined or undefined. If this would be one of those, an empiric test would have no value. – Kami Kaze Mar 23 '18 at 10:55
  • 2
    @Lundin: Any C implementation, no matter how strictly it conforms to the standard, is only one element in the set of all possible conforming C implementations and can neither convey total information about the set nor be authoritative. – Eric Postpischil Mar 23 '18 at 11:10
  • 2
    @Lundin: The fact that you have to know what the C standard says first means that your previous statement of “Then use a standard C compiler” is not useful. Using a standard C compiler does not answer the question of what the C standard says. – Eric Postpischil Mar 23 '18 at 11:53
10

It's constraint violation and as such, a conforming compiler is required to issue a diagnostic.

C11, 6.10.3 Macro replacement states:

An identifier currently defined as an object-like macro shall not be redefined by another #define preprocessing directive unless the second definition is an object-like macro definition and the two replacement lists are identical. [..]

As noted, it's not a constraint violation if the replacement is identical. So

#define X 1
#define X 2

requires a diagnostic; whereas

#define X 1
#define X 1

is OK. Similar constraints apply for function-like macros (C11, 6.10.3, 2).

  • So it is not safe to say that the last one is active. It is more or less undefined? – Kami Kaze Mar 23 '18 at 10:45
  • Does violating a constraint lead to undefined behaviour? C standard doesn't explicitly say so. But in the absence of a defined behaviour, it's probably logical to conclude it's undefined. – P.P. Mar 23 '18 at 10:49
  • @KamiKaze Yes, it is not safe to assume that. A constraint violation is the same thing as undefined behavior. – Lundin Mar 23 '18 at 10:54
  • @P.P. Violating a constraint rather leads to "a violation of the C language", so it is worse yet. I know there's some text saying that if a "shall"/"shall not" outside constraints is violated, then there's UB. Meaning that if a constraint is violated, we have something worse than UB. I don't think the standard has a term for it, other than "must issue a diagnostic message". – Lundin Mar 23 '18 at 10:59
  • 1
    it's not a constraint violation if the replacement is identical <== critical piece of information. I was accidentally defining the exact same macro in multiple places then found it and was wondering why no error was thrown! – Gabriel Staples Nov 28 '19 at 0:58
4

This:

#define Dummy 1
#define Dummy 2

is the same as:

#define Dummy 2

But you'll get probably (I'm not sure what the standard says) a warning such as 'Dummy': macro redefinition for the second #define

In other words: the last #define wins.

If you want to do things properly, you should use #undef:

#define Dummy 1
#undef Dummy
#define Dummy 2    // no warning this time

BTW: there are scenarios where it is perfectly OK to change the definition of a macro.

  • 2
    and you don't get the warning if the value is the same for both #define – Jean-François Fabre Mar 23 '18 at 10:19
  • 3
    Redefining a macro without undefine it is technically invalid. – llllllllll Mar 23 '18 at 10:42
  • 4
    If it violates the C standard there is no point in reasoning about what will happen. A constraint violation is the same as undefined behavior. So the behavior "last define wins" that you describe in this question is by no means given and should not be relied upon. – Lundin Mar 23 '18 at 10:53
  • @Lundin: In the same Q&A, you have both told us to use a conforming C compiler to discern the behavior asked about in the question and that the compiler behavior used to inform this answer is not indicative of the standard. – Eric Postpischil Mar 23 '18 at 11:31
  • @MichaelWalz: we both lack of C-norm-fu :) this seems implementation defined. gcc users (dunno for clang) are okay with your answer. Maybe not Turbo-C ones :) – Jean-François Fabre Mar 23 '18 at 13:13
1

An example from C Standards#6.10.3.5p8

EXAMPLE 6 To demonstrate the redefinition rules, the following sequence is valid.

      #define      OBJ_LIKE      (1-1)
      #define      OBJ_LIKE      /* white space */ (1-1) /* other */
      #define      FUNC_LIKE(a)   ( a )
      #define      FUNC_LIKE( a )( /* note the white space */ \
                                   a /* other stuff on this line
                                       */ ) 

But the following redefinitions are invalid:

      #define      OBJ_LIKE    (0)     // different token sequence
      #define      OBJ_LIKE    (1 - 1) // different white space
      #define      FUNC_LIKE(b) ( a ) // different parameter usage
      #define      FUNC_LIKE(b) ( b ) // different parameter spelling

[emphasis mine]

Hence, this

#define Dummy 1
#define Dummy 2

is not valid.

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