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Here,I have some Doubt with the output.

Why the Output is same ?

   int (*r)[10];
   printf("r=%p  *r=%p\n",r,*r);
   return 0;

Platform- GCC UBUNTU 10.04

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What output do you get? How does that compare to the output that you expect to get? – Cody Gray Dec 20 '11 at 12:17
Here's the output r=0x427ff4 *r=0x427ff4 which are same – Student Arya Dec 20 '11 at 12:20
up vote 7 down vote accepted

Because Name of the array decays to an pointer to its first element.

   int (*r)[10]; 

Is an pointer to an array of 10 integers.
r gives you the pointer itself.

This pointer to the array must be dereferenced to access the value of each element.
So contrary to what you think **r and not *r gives you access to the first element in the array.
*r gives you address of the first element in the array of integers, which is same as r

Important to note here that:
Arrays are not pointers

But expressions involving array name sometimes behave as pointer when those being used as name of the array would not make sense.

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And if I'm correct- the expression *r has an lvalue of type int[10], but is then converted to int* by the means of lvalue-to-rvalue conversion. – Kos Dec 20 '11 at 12:27
Also, "**r and *r gives you access to the first element in the array" is confusing... – Oliver Charlesworth Dec 20 '11 at 12:38
Is r an array of pointers, or is it a pointer to an array? – Aaron McDaid Dec 20 '11 at 12:41
@AaronMcDaid: int *a[10]; will be an array of pointers. – Alok Save Dec 20 '11 at 12:42

You would better understand if you look at the following program.

#include <stdio.h>

int main()
    int a[10] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
    int (*r)[10] = &a;

    printf("r=%p  *r=%p  *(r+0)=%p  *(r+1)=%p\n", r, *r, *(r+0), *(r+1));
    printf("sizeof(int)=%d \n", sizeof(int));

    return 0;

The output is as follows:

r=0xbfeaa4b4  *r=0xbfeaa4b4  *(r+0)=0xbfeaa4b4  *(r+1)=0xbfeaa4dc

Observations / Point(s)-to-note:

  • _DO_NOT_ de-reference a pointer which has not yet made to point to an address. So in your program int (*r)[10]; was de-referenced without being assigned to a memory area. This is not acceptable.

  • If you see the output - *r is same as *(r+0) which is same as r (only w.r.t this case)

  • If you see the output for *(r+0) and *(r+1) it is 40 bytes (0xbfeaa4dc - 0xbfeaa4b4 = sizeof(int) * size of the array (which is 10 in this case). So when you increment a pointer to a particular type, it gets incremented to sizeof(type) bytes!

  • the other worth-notable points about a pointer-to-an-array-of-integers are explained here

Hope this helps!

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Remember that when an expression of type "N-element array of T" appears in most contexts, it will be converted to an expression of type "pointer to T" and its value will be the address of the first element in the array. The exceptions to this rule are when the array expression is an operand of either the sizeof or unary & (address-of) operands, or if the array expression is a string literal being used as an initializer in an array declaration.

Your situation is a mirror image of the following:

int a[10] = {0};
printf("a = %p, &a = %p\n", (void *) a, (void *) &a);

In the printf call, the expression a has its type converted from "10-element array of int" to "pointer to int" based on the rule above, and its value will be the address of the first element (&a[0]). The expression &a has type "pointer to 10-element array of int", and its value will be the same as a (the address of the first element in the array is the same as the address of the array itself).

Your code has a bit of undefined behavior in that you're dereferencing r before it has been assigned to point anywhere meaningful, so you can't trust that the output is at all accurate. We can fix that like so:

int a[10] = {0};
int (*r)[10] = &a;
printf("r = %p, *r = %p\n", (void *) r, (void *) *r);

In this case, r == &a and *r == a.

The expression r has type "pointer to 10-element array of int", and its value is the address of a. The expression *r has type "10-element array of int, which is converted to "pointer to int", and its value is set to the address of the first element, which in this case is a[0]. Again, the values of the two expressions are the same.

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