&arr
is not an address "at a position", but the address of the entire array. You can see this via the difference in types:
&arr
is the address of the array and has type ARR*
, where ARR
is the type int[5]
. When combined, this type looks like int(*)[5]
.
&arr[0]
is the address of the first element. It has type int*
.
Now the actual values are the same because the array object starts at its first element, but it helps to not focus on that when trying to understand arrays vs. pointers.
When you say arr + 1
, what's actually happening is that arr
is being silently converted from an array (int[5]
) to a pointer (int*
) to the first element of the array. You then advance this pointer by one int
. This results in an int*
pointing to the second element of the array. This is the result you wanted to print and is equivalent to &arr[1]
.
Remember that &
takes the address of an object. It's meaningless to take the address of a temporary like the pointer arr + 1
. &(arr + 1)
is equivalent to &(&arr[1])
. They both try to take the address of something that logically doesn't have an address of its own. Remember that a pointer can store an address as its value, but the only reason &
comes into play is because you can use it to obtain the address of an object, which can then be stored into a pointer. &ptr
is the address of ptr
itself, not the value stored in ptr
.
In short, be consistent with what you want. Both of the following will print the address of the first element and the address of the second element. Both print two int*
s since your intent is about individual elements, not the whole array:
std::cout << "First: " << &arr[0] << "\nSecond: " << &arr[1];
std::cout << "First: " << arr << "\nSecond: " << (arr + 1);
arr+1
is an rvalue, and doesn't have an address. It doesn't work for the same reason that&42
doesn't work.std::cout << "arr: " << arr << "\narr: " << (arr+1);
, i.e. print the first and second entry ofarr
?&arr + 1
or&arr[1]
.