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I have these two statements :



printf("%u",(int *)a+1);

Actually I was working on this code when I came across this confusion.


int main()
  int a[2][2]={1,2,3,4};
  int i,j;
  int *p[] = { (int*)a, (int*)a+1, (int*)a+2 };
  for(i=0; i<2; i++){
    for(j=0; j<2; j++){
      printf("%d %d %d %d",* (*(p+i)+j), *(*(j+p)+i), *(*(i+p)+j), *(*(p+j)+i));
  return 0; 


1 1 1 1
2 2 2 2
2 2 2 2
3 3 3 3

In order to understand the output of the above program I came to know that the difference that's making this output can be solved if I know the difference between above two statements.

My current understanding: (a+1) will give me the address of 2nd element of array. In this case a 2-d array can be visualized as 2 1-d arrays, each with 2 elements. So (a+1) will give me the address of a[1][0], but then why is (int *)a+1 giving me the address of a[0][1]?

Please explain the difference and the output of the program.


share|improve this question
Nothing like printf("%u",a+1) appears in your code. – David Heffernan Apr 8 '12 at 12:31

3 Answers 3

up vote 3 down vote accepted

The idiom (int*)a+1 is interpreted as ((int*)a) + 1). That is, the cast takes precedence over the addition. So this evaluates to (int*) a), which is the address of the array as ptr-to-int, offset by 1, which returns the second element in the array (2).

Two critical rules of programming:

Rule 1: When you write code, make the layout reflect the functionality.
Rule 2: When you read code, read the functionality, not the layout. (Corollary: debug the code, not the comments.)

Conceptually, when you declare

int a[2][2]={1,2,3,4};

you envision a 2 dimensional array like this:

  1 2
  3 4

But C actually stores the data in a contiguous block of memory, like this:

  1 2 3 4

It "remembers" that the data represents a 2×2 array when it calculates the indices. But when you cast a from its original type to int *, you're telling the compiler to forget about its original declaration, effectively losing its 2-dimensionality and becoming a simple vector of ints.

Here's how to understand the declaration of p:

int *p[] = { (int*) a,  (int*) a+1,     (int*) a+2 };     // As written
int *p[] = { (int*) a,  ((int*) a) + 1, ((int*) a) + 2 }; // As interpreted
int *p[] = { &a[0][0],  &a[0][1],       &a[1][0] };       // Resulting values

From this, you can see that p is a one-dimensional array of vectors:

p[0] = { 1, 2, 3 }
p[1] = { 2, 3 }
p[2] = { 3 }

If you recognize that (p+i) == (i+p), then the last two items are the same as the first two in the line

printf("%d %d %d %d\n",* (*(p+i)+j), *(*(j+p)+i), *(*(i+p)+j), *(*(p+j)+i));

which is equivalent to this:

printf("%d %d %d %d\n", p[i+j], p[j+i], p[i+j], p[j+i]);

It's interesting to note that, since the following are all equivalent:


then it's perfectly legal to write i[a] to represent the same value. In other words, the compiler allows you to write

printf("%d %d %d %d\n", p[i], i[p], p[1], 1[p]);

Of course, your tech lead had better not allow you to write that. If you write that in my group, you're fired. ;-)

share|improve this answer
Thanks I got it now.The key concept is cast takes precedence over addition. – dark_shadow Apr 8 '12 at 13:04

None, both produce undefined behavior. The correct format to print a pointer value is %p. Cast your pointer to void* when sending it to printf.

share|improve this answer
He's never printing pointer values; they're all dereferenced twice. – Adam Liss Apr 8 '12 at 13:01
@Adam, he never said what the values a in the printf represent. The variable a that is declared in his code is an array. Then he is printing a pointer value in the second case, since he is casting whatever a+1 represents to int*. – Jens Gustedt Apr 8 '12 at 13:38
Ah - you were referring to the initial part of the question; I was referring to the actual code. No wonder we were confused. Before one can debug the problem, one must first debug the person asking it. :-) – Adam Liss Apr 8 '12 at 14:15
@Adam, say I was referring to the question he asked, which is in the title. – Jens Gustedt Apr 8 '12 at 14:23
Right--the title asks a specific question, continued briefly in the text, and then the example elaborates on something different entirely. I may need to adjust the range of my short-term memory. – Adam Liss Apr 8 '12 at 14:27

Multidimensional C arrays behave like single-dimensional arrays laid out next to each other. So if you cast a (normally (int **)) to (int *) you get the same thing you would get from a[0]. Thus (int *) a + 1 is &a[0][1]. Otherwise your understanding is correct, which is why a + 1 gets you &a[1][0].

(This behavior is specified by the standard; but that does not make it good programming practice.)

share|improve this answer
int[M][N] is not int**, and in fact behaves quite differently. – interjay Apr 8 '12 at 12:34
I'm not getting it.How can (int *)a gives me same thing as a[0] ? Can you please explain it in a bit detail ? – dark_shadow Apr 8 '12 at 12:40

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