# int a[20], what's the answer of “ &a + 4”?

``````int a[20];
``````

Suppose the address of a[20] in memory is 100. Size of int is 4. It's easy to know that `a = 100, &a = 100, &a[4] = 116`. But when I try (&a + 4),the answer is 420(I have test it in GCC ,DEV-C ,VC ) I guess the reason why `&a + 4 = 420` is `420 = 100 + 4 * sizeof (a[20]) = 100 + 4*(4*20)`

(The above" = " means "equal")

Is that right?

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This sounds like homework. –  Daniel Kamil Kozar Jun 22 '13 at 7:00
Yeah, I just saw it in the book "Pointers on C". But its answer is 116. I test the code in three different kind of compilers . Still not sure the reason. –  Rainer Liao Jun 22 '13 at 7:03
No , answer is 420. You can try it yourself –  Rainer Liao Jun 22 '13 at 7:08
@MarounMaroun The OP already told you the answer and why. Before claiming otherwise, have the good grace to test it and maybe reexamine your understanding of C. –  Jim Balter Jun 22 '13 at 7:12
@JimBalter My bad. I've just figured out my mistake, but that's why we're here :) to correct and help each other. –  Maroun Maroun Jun 22 '13 at 7:15
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Strictly speaking, the answer is that the behavior is undefined.

`&a` is the address of the array. Adding `1` to an address (pointer value) advances it by the size of the type that it points to. But pointer arithmetic is valid only when the result points to an element of the same array as the original pointer, or just past the end of it. (For purposes of pointer arithmetic, a single object is treated as an array of one element.)

If you assume a certain "well-behaved" memory model, with a single linear monolithic addressing space and addresses sensibly related to integers, then given your assumptions (`&a` is 100, `sizeof (int) == 4`), then yes, the result of `&a + 4` would be `420`. More precisely, since `420` is an integer, not a pointer, it would be `(int(*)[10])420` -- again, assuming conversions between pointers and integers are particularly well behaved.

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`&a` is a pointer to an array of int with 20 elements (the type is `int (*)[20]`).

So `&a + 4` is different than `a + 4` since in the second expression `a` evaluates to a pointer to the first element (it evaluates to a pointer of type `int*`). The pointer arithmetic works out differently since the pointer types are different, even though the value of `&a` and `a` are the same.

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Your comment isn't any better. –  Rainer Liao Jun 22 '13 at 7:29