I have a habit of using the following syntax in my compile-time flags:

#if (defined(A) & defined(B))

It's usually suggested that I do it with the && as follows:

#if (defined(A) && defined(B))

I know the difference between the two operators, and that in normal code && would short-circuit. However, the above is all handled by the compiler. Does it even matter what I use? Does it affect compile time by some infinitesimal amount because it doesn't evaluate the second define()?

  • 2
    When the 2 halves are either 0 or 1, no difference. Sep 2, 2016 at 5:04
  • 6
    Don't write code that unnecessarily obscures what it's doing. C++ isn't Java. Sep 2, 2016 at 11:53
  • @PeteBecker, How does my code obscure what it's doing?
    – Catsunami
    Sep 2, 2016 at 14:41
  • 3
    @Catsunami -- the code is using a bitwise operator to do a logical and. Sep 2, 2016 at 15:32
  • @PeteBecker, I'm not sure how that makes it obscure. It is using a bitwise AND on boolean values, which is very clear.
    – Catsunami
    Sep 2, 2016 at 16:00

3 Answers 3


Since defined(SOMETHING) yields 0 or 1, so that you're guaranteed 0 or 1 on both sides, it doesn't make a technical difference whether you use & or &&.

It's mostly about good habits (using & could carry over to some situation where it would be wrong) and about writing code that is easy to grasp by simple pattern matching. A & in there causes a millisecond pause while one considers whether it possibly could be a bit-level thing.

On the third hand, you can't use keyword and, which you ¹can use in ordinary C++ code.

¹ With Visual C++ you can use and via a forced include of <iso646.h>.

  • I probably mistakenly thought the standard didn't support and in preprocessor conditionals, but it supports any integral constant expression (C++11 §16.1 "Conditional inclusion"). Fixed by overstrike. It's unclear because it says " except that identifiers (including those lexically identical to keywords) are interpreted as described below". Sep 2, 2016 at 5:25
  • 1
    Yeah, it is not stated clearly, but and is not an identifier so the normal rules for identifiers do not apply.
    – user743382
    Sep 2, 2016 at 5:45
  • 2
    MSVC has unofficially deprecated the ISO646 alternative tokens. I'm not really sure why, but they cannot be used (anywhere, not just in preprocessor conditionals) unless you manually include the header. Alternatively, you can throw the /Ze switch (which disables Microsoft language extensions, enabled by default with the /Za switch), and then these alternative tokens will be available everywhere without the need to include the header. Sep 2, 2016 at 10:30
  • @CodyGray This sounds like you and/or MSVC have confused C with C++. The ISO646 alternative tokens have never been available in any context in C, unless you include <iso646.h>, which defines them all as macros expanding to the traditional equivalent. Conversely, in C++, they are supposed to be usable everywhere without including any header.
    – zwol
    Sep 2, 2016 at 16:11

According to the C99 standard, the expressions used in the preprocessor are constant expressions as defined by the C language itself, and are evaluated using the same engine. Therefore, && is a logical and operator that short circuits based on its LHS, and & is a bitwise operator with no predefined order of evaluation.

In practical terms, when used with defined() as you are, there is no difference between the two. However, the following would show a difference:

#define A 2
#define B 5
#if (A && B)
printf("A && B\n");
#if (A & B)
printf("A & B"\n);

In this case, A && B will be output, but not A & B (since the result of that bitwise-and is 0)


I would like to add to the previous answers that it can actually matter a lot in a situation like this:

#define A 0
#define B 21
#if (A != 0) && (42 / A == B)
/* ... */

Here, if A == 0, the compiler will not break. Writing (A != 0) & (42 / A == B) will make the compiler complain about a division by zero.

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