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I want to concat a string literal and char literal. Being syntactically incorrect, "abc" 'd' "efg" renders a compiler error:

x.c:4:24: error: expected ',' or ';' before 'd'

By now I have to use snprift (needlessly), despite the value of string literal and the char literal being know at compile time.

I tried

#define CONCAT(S,C) ({ \
    static const char *_r = { (S), (C) }; \
    _r; \

but it does not work because the null terminator of S is not stripped. (Besides of giving compiler warnings.)

Is there a way to write a macro to use

  • "abc" MACRO('d') "efg" or
  • MACRO1(MACRO2("abc", 'd'), "efg") or
  • MACRO("abc", 'd', "efg") ?

In case someone asks why I want that: The char literal comes from a library and I need to print the string out as a status message.

share|improve this question
I do not want to want to use sprintf or any runtime functions. Please do not put any answers that employ runtime method calls. –  Kay Mar 28 '12 at 17:08
If the literal comes from a library, how are you accessing it? Is it a macro provided by the library header file? –  John Bode Mar 28 '12 at 17:36
Yes, It comes from a header file. –  Kay Mar 29 '12 at 5:06

4 Answers 4

If you can live with the single quotes being included with it, you could use stringification:

#define SOME_DEF 'x'

#define STR1(z) #z
#define STR(z) STR1(z)
#define JOIN(a,b,c) a STR(b) c

int main(void)
  const char *msg = JOIN("Something to do with ", SOME_DEF, "...");


  return 0;

Depending on the context that may or may not be appropriate, but as far as convincing it to actually be a string literal buitl this way, it's the only way that comes to mind without formatting at runtime.

share|improve this answer

Try this. It uses the C macro trick of double macros so the macro argument has the chance to expand before it is stringified.

#include <stdio.h>

#define C d
#define S "This is a string that contains the character "
#define STR(s) #s
#define XSTR(s) STR(s)

const char* str = S XSTR(C);

int main()
    return 0;
share|improve this answer

C will only let you concatenate string literals. Actually, there's nothing wrong with snprintf(). You could also use strcpy():

strcpy(dest, str1);
dest[strlen(dest)] = c;
strcpy(dest + strlen(dest) + 1, str2);

You could also use a giant switch statement to overcome this limitation:

switch(c) {
    case 'a':
        puts("part1" "a" "part2");
    case 'b':
        puts("part1" "b" "part2");

    /* ... */

    case 'z':
        puts("part1" "z" "part2");

...but I refuse to claim any authorship.

To put it short, just stick with snprintf().

share|improve this answer
The thing is that I do not want to use snprintf or strcpy. It is more of a philosophical question than a beginners question … –  Kay Mar 28 '12 at 17:10
kay: Ah, I see... Good luck! ;) BTW, what's wrong with printf("part1 %c part2\n", c);? –  Philip Mar 28 '12 at 17:13
There is nothing "wrong" with printf. I just wanted to know if it was possible to get the whole string at compile time w/o any runtime activity. There is nothing at stake of having such a macro or not. You see … it's a philosophical question. ;) –  Kay Mar 29 '12 at 5:27

I came up with a solution that I don't like too much, as one cannot use CONCAT nestedly.

#include <stdio.h>

#define CONCAT(S1,C,S2) ({ \
    static const struct __attribute__ ((packed)) { \
      char s1[sizeof (S1) - 1]; \
      char c; \
      char s2[sizeof (S2)]; \
    } _r = { (S1), (C), (S2) }; \
    (const char *) &_r; \

main (void)
  puts (CONCAT ("abc", 'd', "efg"));
  return 0;


share|improve this answer
Good idea, but compiling with gcc with the -pedantic option gives the warnings "array initialized from parenthesized string constant" and "ISO C forbids braced-groups within expressions". –  Adam Rosenfield Mar 29 '12 at 5:48

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