```
#include <iostream>
using namespace std;
int main()
{
int Array[] = {10, 20, 30};
cout << -2[Array];
return 0;
}
```

For any array (or pointer) `a`

and index `i`

, the expression `a[i]`

is equivalent to `*(a + i)`

. Thanks to the commutative nature of addition, the expression `*(a + i)`

is the same as `*(i + a)`

, which is equivalent to `i[a]`

.

That means your expression `-2[Array]`

(which actually is `-(2[Array])`

thanks to the unary negation operator having lower *operator precedence* than the indexing operator) is the same as `-Array[2]`

. In other words you are taking the third element (remember that array indexes are zero based) of the array and negating it.

`2[Array]`

returns the element that's at position 2 in your `Array`

, which is 30. You put a `-`

in front, so you get -30

[] have operator precedence on " - " so

2[Array] is solved first and you get answer 30 -(2[Array]) now put value of 2[Array] -(30) so you get -30