6

Assume we have the following:

int main(void) {
   char* ptr;

   printf("%c\n",ptr[24]);  // junk value

   ptr[24] = 'H';

   printf("%c\n", ptr[24]);  // prints H

   return 0;
}

When I change the junk value to something else, does that mean I am corrupting memory or is this value literally junk so it doesn't matter what new value I assign to it?

  • An interesting exercise would be printf("%p\n", ptr + 24); and try the application on a few different platforms. – Christoffer Feb 22 '11 at 9:45
6

Your program exhibits undefined behaviour which means: Literally anything may happen and it's still be coverd by the standard as being undefiend. And when I say anything, I mean it in the full extent. It would be even valid for your computer becoming sentient and chase you down the street.

Well, what's usually happens, but that's not warranted, is that you're writing into unmapped address space (on a modern OS with paged memory) causing a segmentation fault or a bus error (depending on architecture, OS and runtime implementation).

ptr is an unitialized pointer, which means the pointer's value is yet to be defined. A undefined pointer, by definition, points to nothing and everything, i.e. no valid object at all. The only way to make that pointer valid is assigning it the address of a proper C object of the type the pointer dereferences to.

BTW: Plain C has very, very strict typing rules. I sometimes say it's even stricter than C++, because its lack of the implicit conversion operator and function overloading. But its sloppy type casting and bad compilers ruined its reputation with respect to type safety.

  • Just found out that BUS Error is caused by non-aligned pointer.. thanks. "chase you down the street", somebody I read uses this a lot, is it Bruce Eckel? – Vignesh Feb 22 '11 at 8:56
  • Isn't the canonical expression is related to nasal demons? – Christoffer Feb 22 '11 at 9:39
5

You are accessing invalid memory locations which invokes undefined behavior. Anything might happen, it can't be predicted.

2

Since most C implementations allow you to access invalid memory locations, you are actually assigning the 'H' value to that position.

But you cannot trust what's gonna happen next. Maybe your program fails, maybe you damage memory in use by other program, or, in a multithreaded environment, another program may overwrite that value.

  • C doesn't allow you to access invalid memory. The pointer's value is undefined and so is the behaviour of the program. The C standard doesn't relate the numeric value of a pointer to memory addresses - most implementations do it that way, but technically only the ruled of pointer arithmetic must be adhered. – datenwolf Feb 22 '11 at 8:51
  • Sorry, I was implying that because I assume that any memory position outside my program is invalid, being the pointer's value undefined or not. Maybe the answer should be rewritten like Since most C implementations allow.... – elitalon Feb 22 '11 at 9:53
  • 1
    What datenwolf wanted to say is that "invalid memory" is strictly speaking not a valid concept in C, because it does not appear in the standard. The standard just says that dereferencing an uninitialized pointer is undefined behaviour; it does not say that doing so will cause an access to invalid memory (though that is what will happen in most C implementations). – sleske Mar 10 '11 at 17:29
  • @sleske, there's absolutely no hint whether the memory pointed to by an uninitialized pointer is "valid" or not. In practice, it often will be memory you can access. For example, perhaps that slot on the stack was previously occupied by a pointer to some object. – rlibby Mar 11 '11 at 8:43

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