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If you had an iterator vector<int>::iterator i = vector.begin(), i++ moves the actual iterator down. But why does something like

i = i + 3

give you a new iterator three doors down?

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What alternative are you expecting? i + 3; mutating i to advance by 3? –  delnan Dec 8 '12 at 18:47
why do binary operator+ return a copy? Because semantically, A+B should return a new object and leave the arguments unmodified. –  juanchopanza Dec 8 '12 at 18:47
To take the anology further, what happens if, for example, you said 2 + 3? You don't change the 2 or 3, but instead you take both arguments and create a result, 5, while leaving 2 and 3 unchanged (because changing 2 and 3 makes no sense... you'd ruin the whole mathematical world if you somehow changed 2 or 3). Similarly, if you replace 2 with an iterator or other variable, it makes sense to keep the logic the same and not change the iterator or variable, but instead to return a new instance that represents the result. –  Cornstalks Dec 8 '12 at 18:49

4 Answers 4

To mimic the natural behaviour that one would expect from +. The same way that in:

int x = 0;
int y = x + 3;

The second line doesn't change x, it just evaluates to the value of 3. However, x++ would modify x.

If you want to advance a generic iterator, you should use std::advance(i, 3) (it will do i += 3 on a Random Access Iterator and i++ three times on any other).

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When you use operator+, you don't expect either of the operands to be modified. So that means a new object must be created. Just like if you did this:

int a = 5;
int b = a + 3;

You would still expect a to be equal to 5.

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So that you can write:

j = i + 3;

If operator+ didn't create a new copy, what would it do? Modify i?

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It is because x + n should not change the value of x irrespective of what x is, whether it is int or iterator. The idea is same.

However if you don't want to write this:

it = it + 3;

then you have an alternative, you could write this:

std::advance(it, 3);

Note that in case of some standard containers which do not support random access iterator1, you cannot write it = it + 3, but you can still write std::advance(it,3). For example:

std::list<int>::iterator it = lst.begin();

it  = it + 3; //COMPILATION ERROR. `it` is not random access iterator

std::advance(it,3); //okay

So in such cases, std::advance(it,3) is the only way (or else you've to write such functionality yourself).

1. Note that std::vector<T>::iterator is random access iterator, that is why you can write it+3.

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