in a C programming exercise I'm doing something like this (just simplifying):

printf( "%s", 0);

The output is


What happens here? I assume that printf interprets the zero as a char *, so to NULL? How could I replicate this result by something like

char string[] = NULL; //compiler-error
printf( "%s", string);


  • null; //compiler-error the constant is defined as upper-case, and C is case-sensitive. – underscore_d Jul 21 '15 at 19:58
  • Thanks, I did type 'NULL', only mistyped here... – polynomial_donut Jul 21 '15 at 20:09
  • I accepted AnT's answer, since technically speaking, it completely answers my question - although the comment discussion in Greg Hewgill's answer helped at least as much... – polynomial_donut Jul 21 '15 at 20:12
  • Please, don't use an array, just change to char *string = NULL;. That would work. – Luis Colorado Jul 22 '15 at 10:43

Firstly, your

printf("%s", 0);

leads to undefined behavior (UB). %s in printf requires a char * pointer as argument. You are passing 0, which is an int. That alone already breaks your code, just like

printf("%s", 42); 

would. For that specific UB the fact that 0 is a zero does not make any difference.

Secondly, if you really want to attempt to pass a null-ponter to %s format specifier, you have to do something like

printf("%s", (char *) 0);

Of course, this leads to undefined behavior as well, since %s requires a pointer to a valid string as argument, and (char *) 0 is not a valid string pointer. But some implementations prefer to handle such situations gracefully and just print (null).

In your particular case you just got lucky: printf("%s", 0) "worked" the same way as printf("%s", (char *) 0) would and your implementation saved the day by outputting (null).

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    By 'undefined behavior', one usually means 'undefined by the standards' right? Just asking, because the printf-source somehow interprets the zero pointer and prints out (null) ( so in the printf-source, the behavior is specified, which was the point of this comment-question). – polynomial_donut Jul 21 '15 at 20:04
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    Yes, undefined by the standard, meaning implementations (compilers, standard library sources, etc.) can do what they like as long as it is not explicitly ruled out by the wording of the standard. – underscore_d Jul 21 '15 at 20:05
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    In practice, due to that lack of guaranteed outcome, UB usually screams 'Really don't do this!' – underscore_d Jul 21 '15 at 20:09
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    @polynomial_donut: If invoking UB, prepare for nasal demons. In other words: do avoid at all costs – too honest for this site Jul 21 '15 at 20:52
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    @chux: Form the very pedantic point of view, %s requires a pointer to the beginning of a string. String is a formal term in C defined in 7.1.1 as "a contiguous sequence of characters terminated by and including the first null character". The reason the spec of s specifier in printf does not use the term string is that it also has to cover such cases as %42s, which do not require null character termination. But pure %s requires a null terminator, which allows us to describe its argument as a pointer to a string. – AnT Jul 21 '15 at 22:29

As others have noted, passing a null pointer to printf %s is not guaranteed to do anything. Everything else being equal, we would expect a segmentation violation or other ungraceful crash, as printf attempts to dereference the null pointer. As a convenience, however, many (most?) implementations of printf have, somewhere deep within them, the equivalent of

case 's':
    char *p = va_arg(argp, char *);
    if(p == NULL) p = "(null)";
    fputs(p, stdout);

You can also do this using something like:

char *string = NULL;

printf("%s", string);

Many implementations of printf() will print (null) or something similar when passed a NULL pointer to %s. But they don't have to do that (it's not required by the standard).

  • I haven't tried, but "suspected" this would (partly) work. But what I was wondering: Going about it the way you propose, do I risk a segfault, because there is no guarantee for printf to encounter a terminating '\0'-character? – polynomial_donut Jul 21 '15 at 19:58
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    @polynomial_donut: This doesn't have anything to do with terminating '\0' characters, because a NULL pointer doesn't point to anything at all. – Greg Hewgill Jul 21 '15 at 19:59
  • Oh I see... and (null) is the string interpretation of NULL defined in printf? – polynomial_donut Jul 21 '15 at 20:01
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    @polynomial_donut: Right. The behaviour of printing (null) is a convenience for the programmer, provided by some (or most) implementations of printf(). It's a convenience because printing something is often a lot more helpful than simply crashing. – Greg Hewgill Jul 21 '15 at 20:01
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    @GregHewgill: On the other hand, I might argue that crashing would be better. Code that passes NULL to printf when it needs a pointer to a string is buggy. I'd rather catch that bug as early as possible. A stray "(null)" in a program's output is too easy to miss. – Keith Thompson Jul 21 '15 at 20:45

In your example, passing 0 to printf results in undefined behavior because the format-specifier you have says it prints a string, but you gave it an int. To replicate, you can do this:

char *string = NULL;
printf("%s", string);
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    That's not the reason (null) is printed. If you were to pass 5 instead of 0 for example, it's still "looking for a string and didn't receive one", but the resulting behaviour will be quite different than printing (null). – Greg Hewgill Jul 21 '15 at 20:00
  • @Greg thanks, I edited my answer. You learn something new every day :) – Lawrence Aiello Jul 21 '15 at 20:13

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