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Clearly, there are times where defines must have parentheses, like so:

#define WIDTH 80+20

int a = WIDTH * 2; //expect a==200 but a==120

So I have always parenthesized, even if it's just a single number:

#define WIDTH (100)

Someone new to C asked me why I do this, so I tried to find an edge case where the absence of parentheses on a single number define causes issues, but I can't think of one.

Does such a case exist?

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I'll just leave this here: parashift.com/c++-faq-lite/inline-functions.html#faq-9.5 (Look for the links on why #define macros are evil). –  Tim Reddy Jan 31 '12 at 18:29
@TReddy Thanks, but you wouldn't replace a #define WIDTH (100) with inline int width() { return 100; } would you?! –  weston Feb 1 '12 at 9:33
No, I wanted to share links on why macros are evil and those links happened to be collected under that section about inline functions (which is orthogonal to your question). In your situation, does a macro give you better results than a static int width = 80+20? –  Tim Reddy Feb 1 '12 at 14:33
@TReddy That is a good point, a quick test shows the only real downside is that I get a bunch of warnings where it's defined in an .h file, but not used in every .c file that includes it. Maybe that warning can be turned off, and then it would be a viable alternative. –  weston Feb 1 '12 at 15:22
#define 100 50+50 (no, this doesn't actually work) –  Philip Feb 2 '12 at 9:09

8 Answers 8

up vote 23 down vote accepted

Yes. The preprocessor concatenation operator (##) will cause issues, for example:

#define _add_penguin(a) penguin ## a
#define add_penguin(a) _add_penguin(a)

#define WIDTH (100)
#define HEIGHT 200    

add_penguin(HEIGHT) // expands to penguin200
add_penguin(WIDTH)  // error, cannot concatenate penguin and (100) 

Same for stringization (#). Clearly this is a corner case and probably doesn't matter considering how WIDTH will presumably be used. Still, it is something to keep in mind about the preprocessor.

(The reason why adding the second penguin fails is a subtle detail of the preprocessing rules in C99 - iirc it fails because concatenating to two non-placeholder preprocessing tokens must always result in a single preprocessing token - but this is irrelevant, even if the concatenation was allowed it would still give a different result than the unbracketed #define!).

All other responses are correct only insofar that it doesn't matter from the point of view of the C++ scanner because, indeed, a number is atomic. However, to my reading of the question there is no sign that only cases with no further preprocessor expansion should be considered, so the other responses are, even though I totally agree with the advice contained therein, wrong.

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Simple solution: ban the ## from all your C code, in your coding standard. I've been coding C for almost 15 years and never felt the need to use ##. –  Lundin Jan 31 '12 at 15:17
Actually, for me this compiles fine as long as I define a penguin200 and a penguin(int a) function. It seems to have no trouble concattinating penguin and (100) to form penguin(100) which is calls successfully. I might be using C89 however. –  weston Jan 31 '12 at 15:18
Yes, this may be due to different preprocessor specifications (gnu cpp fails it on my machine). But I think we agree that this is not relevant to the question ... –  Alexander Gessler Jan 31 '12 at 15:20
Well technically I asked for cases where the absence of brackets created issues. This is an issue caused by the presence of brackets. It's a better answer than "there is no difference" however. –  weston Jan 31 '12 at 15:24
@Lundin Good for you. But plenty of people use it and need it. Boost for instances makes some great use of token pasting that cannot be replaced. I have also already needed it in a library and I know of no workaround for my case. –  Konrad Rudolph Jan 31 '12 at 19:30

Sometimes you have to write code not with the current caveats in mind, but with the caveats of the next time it is going to be edited.

Right now your macro is a single integer. Imagine someone editing it in the future. Let's say they are not you, but someone who is less careful or in more of a hurry. The parenthesis is there to remind them to put any modifications in parenthesis.

This kind of thinking is a good habit in C. I personally write code in a style which some people might find "redundant", with things like this but especially with regards to error handling. The redundancy is for maintainability and composability of future edits.

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+1 - just what I was typing. –  ChrisBD Jan 31 '12 at 14:54
If that someone knows that non-trivial macros need parenthesis, he'll add them when changing. If not, he'll create a mess, no matter what you do. So I'm against adding parenthesis which are clearly not needed. But it's a matter of opinion. –  ugoren Jan 31 '12 at 15:06
I don't agree - you shouldn't need to concern yourself with the possibility of non-programmers maintaining your code in the future. Parenthesis around macro expressions is such a basic thing, you should be able to assume that every C programmer knows about it. Otherwise by using the same argument, you should put parenthesis around everything: int x = y + z; (not a macro) should then with the same flawed logic always be written as int x = (y + z);, in case a stressed non-programmer will maintain the code in the future, to remind them of the dangers of operator precedence. –  Lundin Jan 31 '12 at 15:14
OK guys, then I disagree with your disagreement. :-) As for @Lundin's comments in particular, I'm not talking about non-programmers so much as bad or uncareful programmers - which seem to exist in droves and in some work environments you can't control who will maintain your code down the line. But even if you have a pool of decent programmers, maybe the parenthesis isn't the best example but I strongly believe adding more lines and characters can often make edits more "composable" - we shouldn't always strive to write the shortest code possible simply because we can. –  asveikau Jan 31 '12 at 15:28
It's the same argument as having braces around if(foo) { bar() }. Sure, you could leave the braces out. It's obvious you'll need them when you add baz(). Perfectly obvious until you get to 3 in the morning... –  Chris Burt-Brown Jan 31 '12 at 16:24

Whenever the define consists of a single token (one operand only, no operators), the parentheses are not needed because a single token (such as 100) is an indivisible atom when lexing and parsing.

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Since 100 is a single token, I doubt you'll find a corner case where the parentheses matter (for a single token!)

It's still a good habit IMO, since they can matter when there are multiple tokens involved.

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No. There is no case where #define WIDTH 100 can yield an unambiguous or "surprising" expansion. That's because it can only result in a single token being replaced by a single token.

As you know, macro confusion ensues when a single token (e.g. WIDTH) results in multiple tokens (e.g. 80 + 20). As far as I can surmise, that's the only cause for the use of parentheses in substitutions and, as explored in my first paragraph, it doesn't apply here.

However, this technical fact aside, it may still be a good practice. It promotes habit, and it also serves as a reminder if that macro ever gets modified to something more complex.

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As Blagovest Buyukliev said:

The define consists of a single token (one operand only, no operators), the parentheses are not needed because a single token (such as 100) is an indivisible atom when lexing and parsing.

But I would recommend the following rules when it comes to macros:

  1. Avoid function like macros @see Lundin's comment.

If you want to use function like macros badly consider the following 2 rules:

  1. Always use brackets for arguments in macros
  2. Only use an macro argument once

Why rule 1.? (To keep the order of the operations correct)

#define quad(x) (x*x)
int a = quad(2+3);

will expand to:

int a = (2+3*2+3);

Why rule 2.? (To ensure a side effect is only applied once)

#define quad(x) (x*x)
int i = 1;
int a = quad(i++);

will expand to:

int a = i++ * i++;
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My own rule #1 is "never use function-like macros". Perhaps it is just me, but since inlining was introduced in C 13 years ago, I can't think of a single case where function-like macros make sense. –  Lundin Jan 31 '12 at 15:23
Thinking about this for a bit, a function-like macro could make reference to a non-argument in-context variable, whereas an inline can't. But like you said, there's no real good reason to use such a thing. I was a part of a very large code review at a former employer where we ended up writing a lot of inlines, against company coding policy, to replace tons of replicated code scattered throughout our part of the OS that otherwise would have been written as function-like macros. We ended up going from the #1 source of bugs to being a model of how to do it right. –  Andrew Beals Jan 31 '12 at 15:53

There's a good reason, sometimes.

For a single number, there's no good reason.

For other cases, as you have shown yourself, there is a good reason.

Some people prefer to be extra careful, and always use the parentheses (@aix recommends it. I don't, but there's no hard answer).

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Thanks for the edit, @Lightness. I realize I've misspelled parentheses all these years... –  ugoren Jan 31 '12 at 19:40
FYI the singular is parenthesis. :) –  Lightness Races in Orbit Jan 31 '12 at 19:46
Yes, I just checked it. Also, the whole thing (the parentheses plus what's in them) is a parenthesis (in English, I'm not sure about C). –  ugoren Jan 31 '12 at 19:52
Indeed, that relates to linguistics; I don't think it has a bearing on technical language. –  Lightness Races in Orbit Jan 31 '12 at 20:58
BTW, @LightnessRacesinOrbit, 3 people here (including me), use "parenthesis", 4 use "parentheses" (including you). So at least I'm not alone. –  ugoren Jan 31 '12 at 22:17

It certainly won't hurt and it is a good habit. But there is no difference between (100) and 100 for numerical calculations.

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