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Here's a program that illustrates my problem:

#include <stdio.h>

#define NUMERATOR 8

#define ZSTR(x) XSTR(#x)
#define YSTR(x) XSTR(x)
#define XSTR(x) STR(x)
#define STR(x) #x

int main()
    printf("QUOTIENT:       %d\n", QUOTIENT);
    printf("STR(QUOTIENT):  %s\n", STR(QUOTIENT));
    printf("XSTR(QUOTIENT): %s\n", XSTR(QUOTIENT));
    printf("YSTR(QUOTIENT): %s\n", YSTR(QUOTIENT));
    printf("ZSTR(QUOTIENT): %s\n", ZSTR(QUOTIENT));
    return 0;

And here's its output:

$ gcc -g -Wall -o stringify stringify.c && ./stringify 
QUOTIENT:       4

I would like to have a the string literal "4" passed to the compiler, but I'm losing hope. This is related to this question, but adds a level.

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I don't think you can do that... the # operator works on a preprocessor token not an expression so I'd not be at all surprised if there is no way to do this whatsoever. – Spudd86 Aug 19 '11 at 19:22
@Spudd86: Yeah, I was just hoping there was a way to do math in the preprocessor and that someone here would know about it. – nmichaels Aug 19 '11 at 19:28
you CAN do math in the preprocessor, you just can't stringize the result #if 0 == 1 - 1 will result in true – Spudd86 Aug 19 '11 at 19:34
@Spudd86: Okay, so I was hoping there was a way for me to use the result of math done in the preprocessor. Maybe I should #if QUOTIENT != 4 #error. – nmichaels Aug 19 '11 at 19:48
Related question… – Joe Aug 19 '11 at 20:16

4 Answers 4

up vote 3 down vote accepted

With some tricks you can implement basic arithmetic in a C99 conforming preprocessor. P99 implements arithmetic and logic for small decimal numbers. E.g

P99_ADD(3, 7)
P99_MUL(7, 2)
P99_DIV(7, 2)

would be preprocessed to something like


These macros can be processed further, stringified and everthing you like.

P99_STRINGIFY(P99_PASTE2(XXX_, P99_ADD(3, 7)))

leads to "XXX_10" as the result of preprocessing.

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You're making me feel bad about wanting the preprocessor to do this stuff for me. (Un?)fortunately, I can't use a C99 conforming preprocessor for this without rewriting all my build scripts. – nmichaels Aug 19 '11 at 20:38
Actually, you only need a C89 conformant preprocessor to do this kind of op-by-macro-paste stuff from P99. Other P99 stuff requires C99 – Chris Dodd Aug 19 '11 at 20:59
@Chris, this heavily uses __VA_ARGS__, no? This is a C99 feature. Many compilers implement this as an extension to C89, the P99 implementation uses all tricks of the prescribed evaluation order of parameters a such things, so they'd better implement that part of C99 completely. – Jens Gustedt Aug 19 '11 at 21:16

You can define macros that paste together their arguments and then define a (large) number of other macros that do the evaluation as kind of a table lookup:

#define DIV(X, Y)  DIV_(X, Y)
#define DIV_(X, Y) DIV_##X##_##Y
#define DIV_0_1  0
#define DIV_1_1  1
#define DIV_2_1  2
#define DIV_8_2  4

This is kind of tedious, but you can easily write a little program to generate a header file with the above stuff in it and run that as part of your build process. Then you just need


Note that his kind of thing only works for unsigned integers -- if you need negative numbers or floating point, it won't work

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I have a feeling this is a lot like what Jens suggested, but exposing the ugly a little more. – nmichaels Aug 19 '11 at 21:21

The best you can do is stringify the expansion of the macro which is done with your XSTR and YSTR examples. Although it may compile to 4 with optimizations all the preprocessor will be able see is (8 / 2)

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Well, I'm a little reluctant to admit I know one way to make this work.

Attack it from the other direction. You want your compiler to see something like this.

#define QUOTIENT 4
#include <stdio.h>

int main(void)
  printf("QUOTIENT:       %d\n", QUOTIENT);
  return 0;

How do we do that without using a literal "4" in the definition of QUOTIENT, since the macro processor won't help us? By using an additional preprocessor. Write a source file, stringify.c.awk, like this.

/* stringify.c.awk --  Source file for stringify.c  
   (Put build instructions here.)  
#include <stdio.h>

int main(void)
  printf("QUOTIENT:       %d\n", QUOTIENT);
  return 0;

Write the secondary preprocessor in awk. I deliberately used a really tight regular expression. I think it's the most likely regex to fail if there are changes to the source file, and I think that's usually what you want. (I usually want to discourage cosmetic changes to the #define.)

# stringify.awk -- calculate and substitute the value for #define QUOTIENT.
  print $0;

Now you can build stringify.c from the stringify.c.awk file.

$ awk -f stringify.awk stringify.c.awk > stringify.c
$ gcc -Wall -o stringify stringify.c
$ ./stringify
QUOTIENT:       4

A makefile and generous comments takes a lot of the pain away.

(m4 won't help for more or less the same reasons the C preprocessor won't help.)

share|improve this answer
Wow, this is like a contest for things we shouldn't do while writing software. I'll fix it in documentation. +1 for reluctance. – nmichaels Aug 22 '11 at 12:25

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