# What happens if you declare a variable inside a macro?

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Suppose I have a macro defined as this:

```#define FOO(x,y) \
do {
int a,b;
a = f(x);
b = g(x);
y = a+b;
} while (0)
```

When expanding the macro, does GCC "guarantee" any sort of uniqueness to a,b? I mean in the sense that if I use FOO in the following manner:

```int a = 1, b = 2;
FOO(a,b);
```

After, preprocessing this will be:

```int a = 1, b = 2;
do {
int a,b;
a = f(a);
b = g(b);
b = a+b;
} while (0)
```

Can/will the compiler distinguish between the `a` outside the do{} and the `a` inside the do? What tricks can I use to guarantee any sort of uniqueness (besides making the variables inside have a garbled name that makes it unlikely that someone else will use the same name)?

(Ideally functions would be more useful for this, but my particular circumstance doesn't permit that)

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Don't use macros for things like that. We have functions for a reason. – ThiefMaster Mar 1 '11 at 9:26
@jleedev: Hygienic macros sound like a great idea...why hasn't gcc implemented this? It sounds like the implementation would be simple straightforward. @ThiefMaster: Agreed that functions would be ideal for this, but they're out of the question because I can't add public functions for this purpose. – R.D. Mar 1 '11 at 9:33
You can't write an exactly equivalent function, but you can write one the returns a+b rather than storing it in the y parameter. Why don't your circumstances allow that? – Jim Balter Mar 1 '11 at 9:44
@R.D. gcc is a C compiler and implements what the C Standard specifies. It also implements some extensions, but these encourage people to write non-portable code; they should be avoided. – Jim Balter Mar 1 '11 at 9:47

Macros perform just string substitution. The semantic is low and the the compiler have a limited knowledge of the preprocessor (essentially #pragma which in fact is not a preprocessor keyword, and source line info).

In your case a and b are not initialized local value. Behavior is unpredictible. Your expanded code is equivalent to the following one.

``````int a = 1, b = 2;
do {
int a___,b___;
a___ = f(a___);
b___ = g(b___);
b___ = a___+b___;
} while (0)
``````

To avoid such case in c++ prefer the use of inline function or template. If you use a c 1999 compliant compiler, you can use inline in c language. http://en.wikipedia.org/wiki/Inline_function

In c you can make safer macro by defining longer variable and surrounding parameter by () :

``````#define FOO(x,y) \
do {
int FOO__a,FOO__b;
FOO__a = f(x);
FOO__b = g(x);
y = FOO__a+FOO__b + (y)*(y);
} while (0)
``````

Note : I changed your example by adding a (y)*(y) to illustrate the case

It is also a good practice to use only once macro parameter. This prevent side effects like that:

``````#define max(a,b) a>b?a:b
max(i++,--y)
``````

Max will not return what you want.

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In C, make a (inline) function. Don't use function-like macros ever. – Lundin Mar 1 '11 at 10:39

If we consider scoping of variables, it is guaranteed that a,b inside the do..while() will be different from the ones defined outside.

For your case, the a,b defined outside will not exist inside the do..while().

There are lots of things to watch out for when using MACROs.

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Nope, there is no guarantee of uniqueness.

Macros are just like replacement of text.

I usually use crazy variable names if I am inside a macro, like this:

``````#define FOO(x,y) \
do {
int FOO_MACRO_a, FOO_MACRO_b;
FOO_MACRO_a = f(x);
FOO_MACRO_b = g(x);
y = FOO_MACRO_a + FOO_MACRO_b;
} while (0)
``````
-
 Do you know how the namespace rules in C work? If you declare a local variable X and happen to have a variable also named X in another scope, your local variable will be the one that gets changed. There is absolutely no need to obfuscate the naming of your local variables. So the code is not about to fail, the only reason for naming local variables different than variables in outer scopes is readability. – Lundin Mar 1 '11 at 10:25 @Lundin: Scoping and namespaces are separate things, please do not confuse the terminology. – Christopher Creutzig Mar 1 '11 at 15:40 @Chistopher Well... yes and no. "Scope" is a language nerd term used in the standards, while "namespace" is the term that the average programmer uses when speaking about programming on a generic level (language-independent). In the C language, namespaces aren't mentioned at all by the standard, so for a C programmer namespace and scope are the same thing. In C++ they are indeed entirely different things and shouldn't be mixed up. – Lundin Mar 1 '11 at 15:49 @Lundin What is going to fail is `a = f(x);` when x happens to be the a from the outer scope. Expanding it to `a = f(a);` surely fails. – Bo Persson Mar 1 '11 at 18:19

There is no tricks other than garbling. The C and C++ preprocessors do not have the equivalent of lisp gensym or hygienic macros.

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 s/haven/do not have/ – Jim Balter Mar 1 '11 at 9:41

Variables a and b are treated just as any local variables inside a local scope.

The C language guarantees that if those variables happen to have the same names as outer scope variables, the local variables will be the ones updated.

Here is an example to illustrate:

``````#include <stdio.h>

#define FOO(x) \
{              \
int a;       \
a = x;       \
printf("%d\n", a); \
}

int main()
{
int a = 1;

{
int a = 2;

printf("%d\n", a); // 2

FOO(3); // 3

printf("%d\n", a); // 2
}

printf("%d\n", a); // 1

getchar();
}
``````

Now, of course it might be a bright idea to not name every single variable in your program "a" just because C guarantees that local variables take precedence. But technically there is nothing stopping you from it.

Btw MISRA-C bans naming like this, it require each variable no matter scope to have an unique name, for readability and maintenance reasons.

(As a sidenote, function-like macros is incredibly poor programming style and shouldn't be used. Use real functions instead, and inline them if performance is critical.)

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Macros are textually expanded as is, modulo parameter replacement, so there's nothing the compiler can do to provide the sort of guarantee you're asking for -- as you can see in the expansion, the `a` parameter will refer to the inner `a`, not the outer one. The solution is indeed to use "garbled" names, e.g. `int FOO_a, FOO_b;`

-

In your macro that is indeed a danger and so is the possible reuse of `x` which is not guaranteed to be an l-value and could change by being used in the macro twice.

Even if you do need a macro, it can still be a light wrapper around an inline function, and one such that will take x and give you both `f(x)` and `g(x)` without possibly having to re-evaluate x would certainly be safe.

``````template< typename T >
struct Foo
{
T& x;

explicit Foo(T&x_) : x(x_)
{
}

int f();
int g();
};

template<typename T>
Foo<T> makeFoo(T& x)
{
return Foo<T>(x);
}

#define FOO(x,y)
{
Foo FOO_VAR(x);
y = FOO_VAR.f() + FOO_VAR.g();
}
``````

would be a safer way to do things. Of course if you don't need the macro at all, do away with it.

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