OK, I'm having trouble understanding pointers to pointers vs pointers to arrays. Consider the following code:

char s[] = "Hello, World";
char (*p1)[] = &s;
char **p2 = &s;
printf("%c\n", **p1); /* Works */
printf("%c\n", **p2); /* Segmentation fault */

Why does the first printf work, while the second one doesn't?

From what I understand, 's' is a pointer to the first element of the array (that is, 'H'). So declaring p2 as char** means that it is a pointer to a pointer to a char. Making it point to 's' should be legal, since 's' is a pointer to a char. And thus dereferencing it (i.e. **p2) should give 'H'. But it doesn't!

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    None of the assignments compile on VC++2010. – Jon Oct 27 '11 at 23:12
  • Strange. It works fine on GCC 4.4.4. – Meta Oct 27 '11 at 23:14
  • @Meta : Not on GCC 4.3.4 (demo) or 4.5.1 (demo)... – ildjarn Oct 27 '11 at 23:15
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    @Meta : Ah, your code is valid C but not valid C++; the c++ tag was throwing everyone off, so I removed it. – ildjarn Oct 27 '11 at 23:24

Your misunderstand lies in what s is. It is not a pointer: it is an array.

Now in most contexts, s evaluates to a pointer to the first element of the array: equivalent to &s[0], a pointer to that 'H'. The important thing here though is that that pointer value you get when evaluating s is a temporary, ephemeral value - just like &s[0].

Because that pointer isn't a permanent object (it's not actually what's stored in s), you can't make a pointer-to-pointer point at it. To use a pointer-to-pointer, you must have a real pointer object to point to - for example, the following is OK:

char *p = s;
char **p2 = &p;

If you evaluate *p2, you're telling the compiler to load the thing that p2 points to and treat it as a pointer-to-char. That's fine when p2 does actually point at a pointer-to-char; but when you do char **p2 = &s;, the thing that p2 points to isn't a pointer at all - it's an array (in this case, it's a block of 13 chars).

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  • Ah OK. I think I'm starting to understand now. Can you just clear up the part about s being a 'temporary, ephemeral value'? Wouldn't it be the same address everytime? – Meta Oct 28 '11 at 0:37
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    @Meta: I mean that the pointer that s evaluates to is not an addressable object, in the same way that a + 1 is not (in standardese, it's not an lvalue). – caf Oct 28 '11 at 0:41
  • @caf, if s is not an addressable object, how come &s is not a compile error (but &(a+1) is)? – Shahbaz May 29 '12 at 16:56
  • @Shahbaz: s is an addressable object - it's an array - but the pointer value that s evaluates to in most contexts is not an addressable object. It so happens that &s is one of the contexts where s does not evaluate to a pointer to the first element - it remains a designator for the array, so &s gives the address of that array. The other context where s still designates the array itself is sizeof s (so this gives the size of the array, not of a pointer). – caf May 29 '12 at 22:46
  • @caf, it is starting to make sense. Array name is like a function name, & of it gives its address, but since without & it doesn't make sense, without & it also gives the address! The same way func and &func would be the same value. That is also why char (*p)[] should be used, similar to char (*fptr)(). Am I correct? – Shahbaz May 29 '12 at 23:20

From what I understand, 's' is a pointer to the first element of the array
No, s is an array. It can be reduced to a pointer to an array, but until such time, it is an array. A pointer to an array becomes a pointer to the first element of the array. (yeah, it's kinda confusing.)

char (*p1)[] = &s; This is allowed, it's a pointer to an array, assigned the address of an array. It points to the first element of s.

char **p2 = &s;
That makes a pointer to a pointer and assigns it the address of the array. You assign it a pointer to the first element of s (a char), when it thinks it's a pointer to a pointer to one or more chars. Dereferencing this is undefined behavior. (segfault in your case)

The proof that they are different lies in sizeof(char[1000]) (returns size of 1000 chars, not the size of a pointer), and functions like this:

template<int length>
void function(char (&arr)[length]) {}

which will compile when given an array, but not a pointer.

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Here's the sample that works, plus printouts of pointer addresses to make things simple to see:

#include <stdio.h>
char s[] = "Hello, World";
char (*p1)[] = &s;
char *p2 = (char*)&s;

int main(void)
   printf("%x %x %x\n", s, p2, *p2);
   printf("%x\n", &s);    // Note that `s` and `&s` give the same value
   printf("%x\n", &s[0]);
   printf("%c\n", **p1); 
   printf("%c\n", *p2);
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  • I added one line to your code that makes it a bit clearer why this happens. – Shahbaz May 29 '12 at 17:13

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