# Pointer arithmetic and dereferencing

In the following code, can anyone please explain to my what the line in bold is doing.

```struct southParkRec {
int stan[4];
int *kyle[4];
int **kenny;
string cartman;
};

int main()
{
southParkRec cartoon;
cartoon.stan[1] = 4;
cartoon.kyle[0] = cartoon.stan + 1;
cartoon.kenny = &cartoon.kyle[2];
*(cartoon.kenny + 1) = cartoon.stan;  //What does this line do?

return 0;
}
```
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Dude, where did you get this code? Any reason why Cartman gets the "bloated" object :) ? –  Jacob Jun 23 '10 at 20:18
I suspect he got it here: stanford.edu/class/cs106x/handouts/32-Section-Handout.pdf –  fadden Jun 23 '10 at 22:35

Think of it as

``````cartoon.kenny[1] = cartoon.stan;
``````

They are basically the same thing

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If we bring the whole thing to one common style of using the subscript operator `[]` (possibly with `&`) instead of a `*` and `+` combination, it will look as follows

``````cartoon.stan[1] = 4;
cartoon.kyle[0] = &cartoon.stan[1];
cartoon.kenny = &cartoon.kyle[2];
cartoon.kenny[1] = &cartoon.stan[0];
``````

After the

``````cartoon.kenny = &cartoon.kyle[2];
``````

you can think of `kenny` as an "array" of `int *` elements embedded into the `kyle` array with 2 element offset: `kenny[0]` is equivalent to `kyle[2]`, `kenny[1]` is equivalent to `kyle[3]`, `kenny[2]` is equivalent to `kyle[4]` and so on.

So, when we do

``````cartoon.kenny[1] = &cartoon.stan[0];
``````

it is equivalent to doing

``````cartoon.kyle[3] = &cartoon.stan[0];
``````

That's basically what that last line does.

In other words, if we eliminate `kenny` from the consideration ("kill Kenny"), assuming that the rest of the code (if any) doesn't depend on it, your entire code will be equivalent to

``````cartoon.stan[1] = 4;
cartoon.kyle[0] = &cartoon.stan[1];
cartoon.kyle[3] = &cartoon.stan[0];
``````

As for what is the point of all this... I have no idea.

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In cartoon you have:
- stan, an array of 4 ints.
- kyle, an array of 4 pointers to int.
- kenny, a pointer to a pointer to int, that is, let's say, a pointer to an "array of ints".

`cartoon.stan[1] = 4;` sets second element of stan array (an int) to 1.
`cartoon.kyle[0] = cartoon.stan + 1;` sets first element of kyle array (a pointer to int) to point to the second element of stan array (which we have just set to 4).
`cartoon.kenny = &cartoon.kyle[2];` sets kenny pointer to point to the third element of kyle array.
`*(cartoon.kenny + 1) = cartoon.stan;` sets fourth element of kyle array (a pointer to int) to point to the first element of stan array (which hasn't been initialised yet). More in detail:

`cartoon.kenny` gets kenny pointer's address (third element of kyle array),
`cartoon.kenny+1` gets the next int after that address (fourth element of kyle array, which happens to be a pointer to int),
`*(cartoon.kenny + 1)` dereferences that pointer, so we can set it, and
`= cartoon.stan` sets it to point to the first element of stan array.

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It is incrementing the pointer at *cartoon.kenny. 'kenny' is a pointer to a pointer, so the first dereference returns a pointer, which is incremented, and a value assigned. So, *(kenny + 1) now points to the beginning of the array 'stan'.

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I love when idiots vote people down to get their answer to the top. What is wrong here exactly? –  Ed S. Jun 23 '10 at 22:59

It sets the last element of Kyle to point to the first element of Stan.

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