The address of the pointer will be incremented by
T is the type pointed to. So for an
int, the pointer will be incremented by
Well first and foremost, the standard requires it. The reason this behaviour is useful (other than for compatibility with C) is because when you have a data structure which uses contiguous memory, like an array or an
std::vector, you can move to the next item in the array by simply adding one to the pointer. If you want to move to the nth item in the container, you just add n.
Being able to write
firstAddress + 2 is far simpler than
firstAddress + (sizeof(T) * 2), and helps prevent bugs arising from developers assuming
sizeof(int) is 4 (it might not be) and writing code like
firstAddress + (4 * 2).
In fact, when you say
myArray, you're saying
myArray + 4. This is the reason that arrays indices start at 0; you just add 0 to get the first element (i.e. myArray points to the first element of the array) and n to get the nth.
What if I want to move one byte at a time?
sizeof(char) is guaranteed to be one byte in size, so you can use a
char* if you really want to move one byte at a time.