Beginning with:

```
*(&a[2] + (&c[5] - 7 - &c[0]))= a[1];
```

First we notice the subexpression `(&c[5] - 7 - &c[0])`

is used multiple times.

`(&c[5] - 7 - &c[0])`

can be rearranged as `(&c[5]- &c[0] - 7 )`

, which is the address of the fifth int of `c`

, minus the address of the 0th int of `c`

, which results in `5`

*, so the expression is `(5-7)`

or `-2`

.

`(&a[2] -2)`

is the address of the second index minus two, which is the same as `&a[0]`

. So `*(&a[2] + (&c[5] - 7 - &c[0]))`

is `a[0]`

.

By extrapolation, the rest of the code is as follows:

```
//a is {1,7,-1,0,2};
a[0] = a[1]; //a is {7,7,-1,0,2};
a[1] = b[1]; //a is {7,5,-1,0,2};
a[2] = c[1]; //a is {7,5, 4,0,2};
```

So then we get to the final equation:

```
int x = a[0] - a[1] + a[2] - a[3];
```

and when we find the values in those positions of the array:

```
int x = 7 - 5 + 4 - 0;
```

Which results in `6`

.

*the addresses are not *actually* 5 apart (they're usually 20 or 40), but when you do subtraction of `int`

pointers, it results in the number of `int`

s between them, which is five.

`y`

in your code - I guess you mean`x`

? – Björn Pollex Dec 15 '11 at 20:27