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square of a number being defined using #define

Can you please explain why the following code outputs "29"?

#define Square(x) (x*(x))

void main()
    int x = 5;
    printf("%d", Square(x+3));
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marked as duplicate by sashoalm, Bo Persson, Oliver Charlesworth, Blue Moon, Jens Gustedt Feb 2 '13 at 16:26

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

5 + 3 * (5 + 3) -- What should that be? – Hot Licks Feb 2 '13 at 14:21
void main() ? – ipc Feb 2 '13 at 14:23
Calling a function accepting a variable number of arguments without a prototype in scope is Undefined Behaviour. Your program could as well print "yellow" or transfer money from your bank account to mine. – pmg Feb 2 '13 at 14:46
Lots of good answers above and below. In addition, when making use of the preprocessor one needs to have additional debugging skills in their repertoire, which involve running the preprocessor solo (independent from the compiler) and inspecting (and debugging) the source code that it outputs. – Erik Eidt Feb 2 '13 at 16:00
Regarding the void main() signature: Read this – leemes Feb 2 '13 at 16:17

5 Answers 5

up vote 18 down vote accepted

Since macros only do textual replacement you end up with:

x + 3 * (x + 3)

which is 29.

You should absolutely always put macro arguments between parentheses.

#define Square(x) ((x)*(x))

Better yet, use a function and trust the compiler to inline it.


As leemes notes, the fact that the macro evaluates x twice can be a problem. Using a function or more complicated mechanisms such as gcc statement expressions can solve this. Here's a clumsy attempt:

#define Square(x) ({    \
    typeof(x) y = (x);  \
    y*y;                \
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+1. Exactly. Any good compiler will inline something like this. Use macros only when you need to do something a function can't do. – Linuxios Feb 2 '13 at 14:27
Please note that there's still something wrong with this macro. – leemes Feb 2 '13 at 15:09
On the other hand a function can't handle int, double, and long long in the same function. – R.. Feb 2 '13 at 15:09
@leemes Good call. – cnicutar Feb 2 '13 at 15:17

Operator precedence. You see, because Square is a macro, not a function, this is what the compiler actually sees:


Which operator precedence ends up as:

5 + (3 * (8))

Or 29. To fix the problem:

#define Square(x) ((x)*(x))
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Please note that although the macro

#define Square(x) ((x)*(x))

seems to solve the problem, it does not. Consider this:

int x = 5;
printf("%d\n", Square(x++));

The preprocessor expands this to:


which is undefined behavior. Some compilers will evaluate this as

(5 * 5)

which seems as expected in the first place. But x = 7 afterwards, since the increment operator has been applied twice. Clearly not what you were looking for.

For the output, see here:

This is why macros* are evil.

(*Macros which tend to be used as a replacement for inline-functions.)

You can fix this in C++ using template functions which can handle all types and in C by specifying a concrete type (since even overloading isn't supported in C, the best you can get is different functions with suffixes):

// C
int SquareI(int x) { return x * x; }
float SquareF(float x) { return x * x; }
double SquareD(double x) { return x * x; }

// C++
template<typename T>
T Square(T x) { return x * x; }

Specifically for GCC, there is another solution, since GCC provides the typeof operator so we can introduce a temporary value within the macro:

#define Square(x) ({ typeof (x) _x = (x); _x * _x; })

Et voila:

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Great post! +1. – Linuxios Feb 2 '13 at 14:44
This shows a potential problem in (mis)using macros. But macros are not evil, but the programmer, who doesn't understand how it works and still uses it in the wrong way, is the real evil ;) +1 regardless of. – Blue Moon Feb 2 '13 at 15:32
@KingsIndian The problem is that most people tend to use macros written like this as functions and don't think about it being a macro. This is what we call abstraction, but here it fails. So yes, most macros are evil. You should at least write them in upper case (as a typical convention) so you know that it's a macro when looking at your code (as long as sticking to this convention). So it's not about misusing them but about misinterpreting written code. Please note that (in serious projects) code is reviewed more often than it is written; Square(x++) is likely to be accepted falsely! – leemes Feb 2 '13 at 16:07
Furthermore, overloading in C is supported to some extend, and macros and _Generic is just the way to go. – Jens Gustedt Feb 2 '13 at 16:35
Macros are more evil in C++ than in C. Since C lacks templates, macros is the right tool to use to achieve function overloading as @JensGustedt said. _Generic can be used to write a Square() macro that would call one of SquareI(), SquareF(), or SquareD() based on the type of the argument. I do agree it is wrong to prefer a macro when an inline function will work equally as well, but those times you need a macro, you should not try to contort your code to use an inline function instead. – jxh Jul 26 '13 at 2:39

The preprocessor replaced Square(x) with x*(x).

Your code looks like printf("%d", x+3*(x)).

You should use #define Square(x) ((x)*(x)).

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Where did you see the uppercase X? – Matteo Italia Feb 2 '13 at 14:25
sorry means lower case x – zeyorama Feb 2 '13 at 14:25
There was an upper-case X in OP's code until someone took the liberty to fix it four minutes ago. – delnan Feb 2 '13 at 14:26

#define square(X) (x*(x)) is a macro, therefore the compiler replaces the macro with the code:

square(x+3) = x+3*(x+3)

     = 5+3*(5+3) = 5+3*(8) = 29
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