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In kernel.h min is defined as:

#define min(x, y) ({                \
    typeof(x) _min1 = (x);          \
    typeof(y) _min2 = (y);          \
    (void) (&_min1 == &_min2);      \
    _min1 < _min2 ? _min1 : _min2; })

I don't understand what the line (void) (&_min1 == &_min2); does. Is it some kind of type checking or something?

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Curious. It seems to me that the address comparison would force _min1 and _min2, and therefore x and y, to actually be computed and stored, but shouldn't that happen anyway when _min1 is compared against _min2 in the next line? –  michel-slm Apr 8 '11 at 13:21

3 Answers 3

up vote 27 down vote accepted

The statement

(void) (&_min1 == &_min2);

is a guaranteed "no-op". So the only reason it's there is for its side effects.

But the statement has no side effects!

However: it forces the compiler to issue a diagnostic when the types of x and y are not compatible.
Note that testing with _min1 == _min2 would implicitly convert one of the values to the other type.

So, I guess, that is what it does. It validates, at compile time, that the types of x and y are compatible.

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Maybe it's better to say that it has no runtime side effects, but rather compilation side effects. –  J. Polfer Apr 8 '11 at 13:28
That doesn't sound right to me for some reason. If the types are incompatible, then the macro won't work anyways. I.e., if you pass the macro a struct foo and an int you'll get a compile time error anyways, even without that line. –  Robert S. Barnes Apr 8 '11 at 14:11
@Robert: try, for instance, m = min(42, 43.0);. Both with and without the statement in question. –  pmg Apr 8 '11 at 14:18
@pmg: So the point isn't incompatible types, it's that they want to ensure that both arguments are of the exact same type? –  Robert S. Barnes Apr 8 '11 at 14:21
int and volatile const int are distinct, but compatible, types! –  pmg Apr 8 '11 at 14:29

See http://www.osnews.com/comments/20566 which explains:

It has to do with typechecking.

Making a simple program:

int x = 10; 
long y = 20; 
long r = min(x, y); 

Gives the following warning: warning: comparison of distinct pointer types lacks a cast

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The Linux kernel is full of stuff like this (gratuitous gcc-specific hacks for the sake of "type safety" and other similar considerations), and I would consider it very bad practice and urge you not to follow it unless someone requires you to.

pmg is right about the purpose of the hack, but any sane person would define min as ((x)<(y)?(x):(y)).

Note that the kernel definition precludes many correct usages, e.g. where one argument is int and another is long. I suspect what they really wanted to preclude is signedness mismatches, where for example min(-1,1U) is 1. A better way to assert this would be to use a compile-time assertion for ((1?-1:(x))<0)==((1?-1:(y))<0). Note that this does not require any gcc-specific hacks.

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But ((x)<(y)?(x):(y)) breaks if either x or y have side-effects. In fairness to the kernel they specify GCC as their compiler so they're allowed GCC-specific stuff. –  Rup Apr 8 '11 at 13:51
Everyone knows you don't pass expressions with side effects to a min/max macro. This is one of the first things you learn learning C. And specifying GCC as the only supported compiler is a hindrance to progress. –  R.. Apr 8 '11 at 14:03
Sure, but I learned it the other way around: you don't write min / max as a macro like that. –  Rup Apr 8 '11 at 14:10
Macro is the only way to make it work with multiple types (float, pointers, integers, signed or unsigned). There are ways to make it avoid evaluating them more than once, but they're sufficiently painful and make the macro gigantic and unreadable that I don't think they're worth it. A good C programmer will be cautious about side effects here anyway, and it's much more important that the macro is simple and clear and obviously correct to somebody who reads it. –  R.. Apr 8 '11 at 14:37
The kernel requires various other things (asm blocks, linker section annotations) that are not part of standard C anyway, so specifying GNU C isn't really a loss. –  caf Apr 11 '11 at 12:47

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