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$ cat try1.c

#include<stdio.h>
void main()
{
        int arr[]={1,2,3,4};
        printf("%lu--%lu--%lu--%lu\n", arr, arr+1, &arr, &arr+1);
}

$ gcc try1.c -o try1
$ ./try1
140736912750144--140736912750148--140736912750144--140736912750160
$ ./try1
140735606483504--140735606483508--140735606483504--140735606483520
$

&arr gives the base address of the array i.e the 0th element address .. but why does &arr+1 increment with size of array and not by 1 sizeof(int) i.e 4B.

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2 Answers 2

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&arr gives the base address of the array i.e the 0th element address

&arr gives you the same address as &arr[0], but it does not mean that pointer type is the same. arr is implicitly converted to int *, where &arr has type int(*)[4]. According to pointer arithmetic + 1 gives you base address +sizeof(int) in first case and +sizeof(int[4]) in the second.

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In arr + 1, arr is an array decaying to a pointer. A pointer to int. So arr + 1 is the address of arr[1].

In &arr + 1 you take the address of arr which is a pointer to an array of int of length 4. And then you increment that pointer. And because that pointer is a pointer to an array of int of length 4, &arr + 1 is the address just past the end of arr.

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  • Actually it boils down to the '+' adds sizeof(int) first time and sizeof(int[4]) second time. Precedence is kind of secondary.
    – david.pfx
    Jun 26, 2014 at 14:20
  • @david.pfx OK. If the precedence was the other way around then &arr+1 would make no sense at all. I removed that comment. Jun 26, 2014 at 14:30

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