# pointer indirection confusion

I have an array as:

``````int x[3][5]={
{1,2,3,4,5},
{6,7,8,9,10},
{11,12,13,14,15}
};
``````
1. What does *x refer to?
2. *(*x+2)+5 refer to "8".How does that happen?
3. Is *(*x+2) same as *(*x)+2?
4. What if I do:

*n=&x; Where is the pointer n pointing to? if it would have been only x and not an & then it would have been the base address.What for now?

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Looks a lot like homework. Could you please at least try to answer it yourself first? – x4u Sep 2 '10 at 15:11
I can easily do that by running the program.I was in need of an explanation dear. – Fahad Uddin Sep 2 '10 at 15:13

1. `*x` is a dereference operation. In other words, "give me what `x` is pointing at". Since this is an array (of arrays), dereferencing x will give you the first array. This is equivalent to the array access syntax of `x[0]`.

2. `*(*x+2)+5` is equivalent to `x[0][2] + 5`, which gives you 8. This is because: `*x` is the same as `x[0]` (see #1) and `*(x + 2)` is the same as `x[2]`. Once you've done two dereferences, you've gone from an array of arrays (similar to a double-pointer) to an array (single pointer) to an actual number (the third item in the first array). Then, it's just 3 + 5 = 8.

3. `*(*x+2)` is equivalent to `x[0][2]` (see #2), which is 3 (third element in array). However, `*(*x) + 2` gives you `x[0][0] + 2` (first element in array plus 2), which is 1 + 2 = 3. Same answer, but very different way of getting it.

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You mean if I have *(*x+1) I would first find where it points to? i.e x[0][0] and then add 1 to the value which it points to?Wont it be the same as *(*x)+1 ? – Fahad Uddin Sep 2 '10 at 15:30
@fahad *(*x+1) would be x[0][1], which is the second element in the first array. *(*x)+1 means to take x[0][0] and add 1 to the value. Again, in your particular case, they are both equal to 2. – Bob Sep 2 '10 at 15:40

`*x` refers to the first array ({1,2,3,4,5}), and is equivalent to x[0]. Adding one to `x` move to the next array, so `*(x+1)` would refer to the second array, and would be equivalent to x[1].

`*(*x + 2)` is therefore the third element in the first array, which is 3. This means that `*(*x + 2) + 5` is equal to 8.

The parentheses matter a lot, for example `*(*(x+2))` would be the first element in the third array.

`*(*x + 2)` results in the same value as `*(*x) + 2`, but does not use the same element of the array.

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`*x` is not a pointer, it is an array. It might decay to a pointer in some cases, but not always. For example, try `sizeof *x`. – Alok Singhal Sep 2 '10 at 15:33
Good point, I'll change the wording. – WildCrustacean Sep 2 '10 at 15:34

x is a `int**` so it's like if you have a first layer of pointers and everyone of them point to a `int*` (so an array of `int`).

When you write `*x` you obtain the address that contains the address which points to the first row of your multi dimensional array.

So if you take `(*x + 2)` if it's like referencing to first row of you array and then add 2 to the address: you obtain the address of the third element of first row. But since this is still a pointer you add an external `*(*x+2)` to exactly obtain third element of first row.

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`x` is not an `int **`. `x` can never even decay to `int **`. – Alok Singhal Sep 2 '10 at 15:32

Think of it this way:

``````typedef int Int5[5];
Int5 x[3];
``````

`x` is an array with 3 elements. Each of those three elements is a array of 5 ints.

• What does *x refer to?

`x` is the same as '&x[0]`so`*x`is the same as`x[0]` which is the first 5-element array.

• *(*x+2)+5 refer to "8". How does that happen?

`*x` is x[0], and `x+2` is `&x[2]` so `*x+2` is `&x[0][2]` and `*(*x + 2)` is `x[0][2]` which happens to be 3. Add five to that for 8.

• Is *(*x+2) same as *(*x)+2?

`*(*x+2)` is `x[0][2]` as we've seen. `*(*x)` would be x[0][0], so `*(*x)+2` is `x[0][0]+2`. So both `*(*x+2)` and `*(*x)+2` end up equaling 3, but that is merely a coincidence.

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