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#include <stdio.h>
#define print_int(a) printf("%s : %d\n",#a,(a))
int main(void) {
    int y = 10;
    print_int(y);
    return 0;
}

i am taking a class and have been asked to explain why this is bad... So i guess stringizing #a is the problem. It does work, so why is it dangerous?

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4  
Whoever gave you that assignment is trying to impose a fringe viewpoint on students. There's no established reason this should be considered bad. –  R.. Feb 1 '11 at 23:05
    
i am trying to see why it should be bad before having an opinion on the political side of this... i probably would code like that anyways –  user501743 Feb 2 '11 at 10:03
    
I'm not even sure why somebody would consider it bad. I've never heard this cited as a practice "considered harmful" before... –  R.. Feb 3 '11 at 6:46
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3 Answers

because it bypasses type safety. What happens when someone hates you and goes print_int("5412");

#include <stdio.h>
#define print_int(a) printf("%s : %d\n",#a,(a))
int main(void) {
    print_int("1123123");
    return 0;
}

outputs

$ gcc test.c 
test.c: In function ‘main’:
test.c:4: warning: format ‘%d’ expects type ‘int’, but argument 3 has type ‘char *’
$ ./a.out 
"1123123" : 3870
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C99 for the win: #define print_int(a) printf("%s : %d\n",#a,(int){a}) –  Christoph Feb 1 '11 at 22:08
1  
@Enabren: the warning in your answer is a courtesy of the compiler, whereas the one from my code is an actual violation of C language semantics (see C99 6.5.4 §3) and should probably be an error if std=c99 is set... –  Christoph Feb 1 '11 at 22:29
    
I don't believe (int){a} is a valid compound literal, but I may be mistaken. Of course this would be: (int [1]){a}[0]. –  R.. Feb 1 '11 at 23:02
    
@R., yes, it is a valid compound literal: syntactically these these are described as casts followed by a brace initializer. –  Jens Gustedt Feb 1 '11 at 23:33
    
I was under the impression that the set of types valid for compound initializers and the set of those valid for casts were disjoint. –  R.. Feb 2 '11 at 0:28
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I don't think it's bad at all. The stringtize operator is very useful for writing macros like assertions:

#define assert(x) do { if (!(x)) { printf("assert failed: %s\n", #x); } } while (0)

You an abuse any useful feature. I once had the bright idea to "simplify" Qt Atoms by writing:

#define ATOM(x)  (((#x)[0] << 24) | ((#x)[1] << 16) | ...

So you could say ATOM(MPEG) and get ('M' << 24 | 'P' << 16 | ...). In fact, it worked well enough that gcc could produce integer constants from it... Sometimes... Now that was evil!

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The conversion from chars to int is dependent on the endianness, you should encapsulate that in another macro, e.g. #define FOUR_CHAR_TO_INT(a,b,c,d) ((a)<<24 | (b)<<16 | ... ) and #define ATOM(x) FOUR_CHAR_TO_INT((#x)[0], (#x)[1], (#x)[2], (#x)[3]). –  hlovdal Feb 1 '11 at 23:02
    
Wonderful way to make your program non-portable: use fake integer constant expressions that gcc treats as if they were valid integer constant expressions. –  R.. Feb 1 '11 at 23:03
2  
@hlovdal: There is no endian-dependency whatsoever in Ben's code. –  R.. Feb 1 '11 at 23:04
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Preprocessor statements are generally considered evil. Bad things will happen when I say:

int a = 15;
print_int(a++);
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3  
in general, maybe, but not in this case... –  Christoph Feb 1 '11 at 22:09
1  
Really? Why is the pre-processor evil? It is/can be complex (but powerful), but that is not evil. –  hlovdal Feb 1 '11 at 22:59
    
Hm, i guess "evil" is probably not acadmic enough an explanation for uni. I have actually never come across code that uses this in real life... –  user501743 Feb 2 '11 at 1:36
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