-2

Here is the problem program:

#include <stdio.h>
int main()
{   
    int apricot[2][3][5];
    int (*r)[5]=apricot[0];
    int *t=apricot[0][0];

    printf("%p\n%p\n%p\n%p\n",r,r+1,t,t+1);
} 

The output of it is:

# ./a.out 
0xbfa44000
0xbfa44014
0xbfa44000
0xbfa44004

I think t's dimension's value should be 5 because t is the last dimension,and the fact is matched(0xbfa44004-0xbfa44000+1=5)

But the r's dimension's value is 0xbfa44014-0xbfa44000+1=21,I think it should be 3*5=15,because 3 and 5 are the last two dimensions,then why the difference is 21?

2 Answers 2

4

r is a pointer to an array of 5 ints.

Assuming 1 int is 4 bytes on your system (from t and t+1), then "stepping" that pointer by 1 (r+1) means an increase in 5*4 = 20 bytes. Which is what you get here.

1

You get tricked by the C syntax. r is an array pointer to an array of int, t is a plain int pointer. When doing any kind of pointer arithmetic, you do it in the unit pointed at.

Thus t+1 means the address of t + the size of one pointed-at object. Since t points at int and int is 4 bytes on your system, you get an address 4 bytes from t.

The same rule applies to r. It is a pointer to an array of 5 int. When you do pointer arithmetic on it by r+1, you get the size of the pointed-at object, which has size 5*sizeof(int), which happens to be 20 bytes on your computer. So therefore r+1 gives you an address 20 bytes (==14 hex) from r.

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