I have read that the following results in undefined behavior.

strcmp(foo, NULL); 

But what exactly happens "underneath the hood," so to speak? Is foo compared to garbage data? Is NULL dereferenced? What are the details that cause "undefined behavior"?

  • 3
    Who says the function has to fail?
    – aschepler
    Commented Feb 18, 2014 at 20:54
  • 2
    Well, you can always look at the implementation source code... Commented Feb 18, 2014 at 20:54
  • 6
    The term "Undefined behavior" is intentionally vague because ANYTHING could happen. ANYTHING. Commented Feb 18, 2014 at 20:55
  • 1
    Undefined behavior means it is not spelled out what should happen. So the implementer could decide to whatever they feel best. The problem it creates is that one can't rely on reproducing the behavior one sees in one system or for that matter even on the same system if things change e.g. the runtime get updated or the program is compiled in a different way or the program is run in different conditions.
    – amit_g
    Commented Feb 18, 2014 at 21:01
  • 2
    @KeithThompson: Says "restricted to the rules of physics and logic". Writes C... :-)
    – Kerrek SB
    Commented Feb 18, 2014 at 21:21

4 Answers 4


It depends on the implementation, which is free to assume your parameters are valid (i.e. not null in this case). The behaviour may or may not be reproducible from execution to execution, or from one implementation/platform to another.


C11 makes this very clear in 7.1.4, "Use of library functions":

Each of the following statements applies unless explicitly stated otherwise in the detailed descriptions that follow: If an argument to a function has an invalid value (such as [...] a null pointer [...]) [...], the behavior is undefined.

The description of strcmp in 7.24.4 does not state otherwise, so the behaviour is indeed undefined.

  • 7
    Yes, as the OP acknowledged in the first sentence of the question. Commented Feb 18, 2014 at 21:05

This is the current implementation of strcmp in glibc:

/* Compare S1 and S2, returning less than, equal to or
   greater than zero if S1 is lexicographically less than,
   equal to or greater than S2.  */
strcmp (p1, p2)
     const char *p1;
     const char *p2;
  const unsigned char *s1 = (const unsigned char *) p1;
  const unsigned char *s2 = (const unsigned char *) p2;
  unsigned char c1, c2;

      c1 = (unsigned char) *s1++;
      c2 = (unsigned char) *s2++;
      if (c1 == '\0')
    return c1 - c2;
  while (c1 == c2);

  return c1 - c2;
  • Nope. For example, many programmers of multiuser systems with memory protection might expect that dereferencing a null pointer will produce a bus error, but that's not necessarily the case on all platforms. You could very well end up comparing foo to the interrupt vector table or the capacitive charge of undriven bus pins. Commented Feb 18, 2014 at 21:04
  • 4
    It actually does answer the question. In glibc, NULL does get dereferenced and an attempt to compare the "strings" is made, so depending on how the system responds to attempts to read memory addresses 0,1,2..., either the appropriate error is produced, or the string is compared to garbage data. Commented Feb 18, 2014 at 21:06
  • 2
    It does not answer the question, because you do not know that glibc is being used, and because you admit that even where glibc is used, what happens depends on how the host system responds to an attempt to dereference a null pointer. Commented Feb 19, 2014 at 16:11
  • Interesting detail in the code here exploiting the fact that modular arithmetic normally used for unsigned types is not used for c1-c2 because the result type is signed. To get that behaviour, one would have to write return (unsigned char)(c1 - c2);. Commented Oct 23, 2017 at 10:42

You pass two pointers, and strcmp dereferences their contents and compares until it meets the difference or null character. Fail happens at different abstraction level, strcmp is fail-free on it's own. Many systems generate SIGSEGV signsl on dereferencing NULL pointer, but this is not the requirement.

Please note that ISO standards do not define many things, leaving implementation details up to implementations. At ISO C level there is nothing wrong with your example, but the results are not guaranteed to be predictable. (And no practical test is guaranteed to be precise and reproducible, unless you consult the rules of underlying system and they say otherwise).

When we are talking about abstraction levels, we cannot ask "what if", because the rules are clear and say "do not do that, behavior is not defined here".

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