I'm creating a modified printf implementation, and I'm not sure about the answers to these questions.

  1. Does zero work as a null string? (Is printf("%s", 0) allowed?)

    I'm guessing no, because 0 is an int. But then this prompts this question:

  2. Does NULL work as a null string? (Is printf("%s", NULL) allowed?)

    Logically, I think it should be yes, because NULL implies a pointer; but a lot of implementations seem to have #define NULL 0, so I feel in practice it might be no. Which is correct?

  3. Does the pointer type have to point to char? (Is printf("%s", (void const *)"") allowed?)

    My guess is that the type doesn't matter, but I'm not sure.

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    Note that if you're creating your own implementation, you might want to attempt to support these usages even though they're all UB (see my answer as to why they're UB). There's a decent amount of broken software out there that assumes they work... :-( – R.. Aug 31 '12 at 21:20
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    I am so glad that C++11 added nullptr – Blastfurnace Aug 31 '12 at 21:20
  • Posix exec is an example of a varargs function that must be called with an argument (char *) NULL. – ecatmur Aug 31 '12 at 21:28
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    Related to R..'s note for those creating implementations: even if you define NULL to be an integer, it is strongly advisable to make it an integer that's the same size as a pointer, unless you're deliberately creating a debugging implementation to catch obscure UB. And also to make the representation of a null pointer all zeros. Users will erroneously pass NULL as a vararg, thinking it's a pointer. In C NULL in fact does not imply a pointer, despite that being the sole reason people use it. Bjarne Stroustrup's remarks on NULL persuaded me that it's broken, I use 0 instead. – Steve Jessop Sep 1 '12 at 1:02

Case 1 is undefined behavior because the type of the argument (int) does not match the type required by the format specifier (char *).

Case 2 is undefined behavior for the same reason. NULL is allowed to be defined as any integer constant expression with value 0, or such an expression cast to (void *). None of these types are char *, so the behavior is undefined.

Case 3 is undefined behavior for the same reason. "" yields a valid pointer to a null-terminated character array (string), but when you cast it to const void *, it no longer has the right type to match the format string. Thus the behavior is undefined.

  • Way better answer than mine. – cnicutar Aug 31 '12 at 21:19
  • Looking at (an array of character type), I think unsigned char * and signed char * would also be OK. – ecatmur Aug 31 '12 at 21:27
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    According to section, "A pointer to void shall have the same representation and alignment requirements as a pointer to a character type.39) Similarly, pointers to qualified or unqualified versions of compatible types shall have the same representation and alignment requirements." It's always to convert void* to char*, so #3 is valid. #2 is still invalid, but for a different reason. – dasblinkenlight Aug 31 '12 at 21:27
  • as @dasblinkenlight wrote, case 3 is strictly conforming. – ouah Aug 31 '12 at 21:32
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    Also, come to think of it, I'm not certain off-hand that a pointer to the second character in an array can clearly be said to be a pointer to the initial element of an array. Is there some umbrella text somewhere, that says "whenever any function talks about a pointer to the first element of an array, it's OK to give it a pointer to any element of an array and it will act as though the preceding part of the array doesn't exist", or "every contiguous subset of an array is an array", or some such? – Steve Jessop Sep 1 '12 at 0:41

I believe it would compile just fine but behavior is undefined.

Something about how printf works and why it is considered to be unsafe. printf takes as many arguments, as you give it with only one (first one) being required. All the arguments (except for the first one - the pattern) are then treated as an array of bytes. It doesn't check types or anything. It simply prints.

Printing string is more complicated as it just goes on until it finds 0 byte ('\0'). To clarify, you can try testing it with integers. As you know, short is 2 bytes-long, long is 4 and long long is 8. If you told printf to print long and passed 2 shorts - it would treat them as one long. Or if you passed long long and told it to print long, it would take 4 first bytes and use them for printing.

With that in my these specific cases would probably (didn't test) print nothing but it is considered to be undefined behavior. If these values weren't 0s, it may print some characters if you passed some specific values which had a couple non-'\0's at the beginning.

Not quite sure if it helps but hope so.


From the online C11 draft: The fprintf function

s If no l length modifier is present, the argument shall be a pointer to the initial element of an array of character type.280) Characters from the array are written up to (but not including) the terminating null character. If the precision is specified, no more than that many bytes are written. If the precision is not specified or is greater than the size of the array, the array shall contain a null character.
280) No special provisions are made for multibyte characters.

Anything other than a pointer to the first element of an array of char containing at least 1 character (the 0 terminator) invokes undefined behavior.

If you're building your own implementation, you can certainly define your own behavior for 0 or NULL.

Oh, and as far as the definition of NULL is concerned: Pointers

3 An integer constant expression with the value 0, or such an expression cast to type void *, is called a null pointer constant.66) If a null pointer constant is converted to a pointer type, the resulting pointer, called a null pointer, is guaranteed to compare unequal to a pointer to any object or function.
66) The macro NULL is defined in <stddef.h> (and other headers) as a null pointer constant; see 7.19

Basically, any 0-valued integer expression in a pointer context is considered a NULL pointer.

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