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char list[] = "World";
char *ptr = list + 2;
char **p = &ptr;

The question: Why is &ptr of type char**? I understand that p points to a pointer to an array but isn't the address of ptr a char*?

I have looked at Is an array name a pointer?, is it possible that the array is considered a pointer as well in this case?

marked as duplicate by huysentruitw, Ring Ø, haccks c Dec 8 '15 at 15:34

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  • If ptr is a char* then its address is a (char*)*, i.e. a char**. – CompuChip Dec 8 '15 at 15:30

Is array considered a pointer also?

No, pointers and arrays are distinct types. The confusion arises partly because in many cases pointers can decay to arrays, and in functions, array-like parameters are adjusted to pointers.

Why is &ptr of type char**?

Because ptr is of type char*. Applying the address-of operator to an object of a type gives you a pointer to that type.

I understand that p points to a pointer to an array

No, it points to a pointer, which points to an element of an array.

A pointer to an array is a different type altogether. For example, here a real pointer to an array is made to point to an array:

int a[8];
int (*arr)[8] = &a;
  • No, the OP is correct: char **p = &ptr; initializes p as a pointer to an array, not to an element of an array. – Tim Pierce Dec 8 '15 at 15:32
  • If you are drawing a firm distinction between "pointer" and "array," then sure. But in neither case is p a pointer to an element of an array. It's a pointer to a pointer to an element. – Tim Pierce Dec 8 '15 at 15:34
  • 1
    @TimPierce I am drawing a firm distinction, that is the whole point. – juanchopanza Dec 8 '15 at 15:35
  • Your new edit was the one that I wanted to show earlier. :) – Haris Dec 8 '15 at 15:37
  • @Haris Thanks fixed. I got confused between p and ptr. – juanchopanza Dec 8 '15 at 15:40

You have to follow things step-wise to easily understand this.

char* ptr is a pointer to char because it is pointing to a char.

What is p pointing at?

It is pointing at a char*. Therefore, it is a pointer to a pointer to a char. That is p is of type char**.


&ptr is a char ** simply because ptr is a char*. list is not a pointer, it's an array. But ptr is declared as char *, so it's a pointer.

ptr is initialised from a pointer list + 2. The expression list + 2 uses the operator +, which performs the array-to-pointer conversion on its operands (if applicable). Therefore, when evaluating list + 2, a temporary pointer to char is created from list using the array-to-pointer conversion. Then another temporary pointer is created by adding 2 to the first one, and this second temporary is then used to initialise ptr.


An array's name "decays" into a pointer to its first element under most circumstances.

In this case, the array consists of 2 bytes. Its name list is a char * pointing to the W.

Consequently, list + 2 points to the r. This pointer is stored into ptr, a char * as well.

A char * is a pointer to char. Consequently, a char ** is a pointer to a pointer to char, and that's exactly what &ptr is.


Array is not a pointer. It is an array. However, array can decay to pointer in certain contexts, of which most notable is passing an array to a function.


A pointer is also the first element of an array, so the address of the first element of the array and the pointer of the array would be the same

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