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I have the following code:

int main()
    vector<int> v;

    for(int i = 0; i < 10; ++i)

    auto it = v.begin() + 3;

    cout << "Iterator: " << *it << endl;

    vector<int>::reverse_iterator revIt(it);

    cout << "Reverse iterator: " << *revIt << endl;


After running this code I get the following output:

Iterator: 3
Reverse iterator: 2

Could someone explain why the 2 values differ ?

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I'm not 100% sure, but the forward iterator would look forward, whereas the reverse iterator would look back. v = {1, 2, * 3, 4...} where * is the iterator position of both of them. Look at which direction they're going. –  chris Apr 29 '12 at 16:25
@chris: not exactly: or better, this is how java defines iterators (pointing "in between") C++ has a different concept. But the practical result is also in accordance to your explanation. But is a consequence, not the definition. –  Emilio Garavaglia Apr 29 '12 at 16:41
@EmilioGaravaglia, thanks for clearing it up. It wasn't something I'm very familiar with. –  chris Apr 29 '12 at 16:42

4 Answers 4

up vote 5 down vote accepted

Reverse iterators 'correspond' to a base iterator with an offset of one element because of how rbegin() and rend() have to be represented using base iterators that are valid (end() and begin() respectively). For example, rend() cannot be represented by an interator that 'points' before the container's begin() iterator, although that's what it logically represents. So rend()'s 'base iterator' is begin(). Therefore, rbegin()'s base iterator becomes end(). A reverse iterator automatically adjusts for that offset when it is dereferenced (using the * or -> operators).

An old article by Scott Meyers explains the relationship in detail along with a nice picture:

Guideline 3: Understand How to Use a reverse_iterator’s Base iterator

Invoking the base member function on a reverse_iterator yields the “corresponding” iterator, but it’s not really clear what that means. As an example, take a look at this code, which puts the numbers 1-5 in a vector, sets a reverse_iterator to point to the 3, and sets an iterator to the reverse_iterator’s base:

vector<int> v;

// put 1-5 in the vector
for (int i = 1; i <= 5; ++i) {

// make ri point to the 3
vector<int>::reverse_iterator ri =
  find(v.rbegin(), v.rend(), 3);

// make i the same as ri's base
vector<int>::iterator i(ri.base());

After executing this code, things can be thought of as looking like this:

alt text

This picture is nice, displaying the characteristic offset of a reverse_iterator and its corresponding base iterator that mimics the offset of rbegin() and rend() with respect to begin() and end(), but it doesn’t tell you everything you need to know. In particular, it doesn’t explain how to use i to perform operations you’d like to perform on ri.

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Looks like the documentation says they do that to handle past-the-end elements, i.e. if you reverse an iterator that is past the end, the new reverse iterator points to the last element.

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The first paragraph of 24.5.1 Reverse iterators says:

Class template reverse_iterator is an iterator adaptor that iterates from the end of the sequence defined by its underlying iterator to the beginning of that sequence. The fundamental relation between a reverse iterator and its corresponding iterator i is established by the identity:
&*(reverse_iterator(i)) == &*(i - 1).

The value returned by rend() cannot point before begin(), because that is not valid. So it was decided that rend() should contain the value of begin() and all other reverse iterators be shifted one position further. The operator* compensates for this and accesses the correct element anyway.

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Reverse iterator looks always "one before" then the forward, since its range is shifted by one:

Forward iterator goes from begin() (the first element) to end() (past the last: [begin-end) is opened at the end side)

Reverse iterator goes from rbegin() { return reverse_iterator(end()); } to rend() { return reverse_iterator(begin()); } by definition, but also has to walk the open range [rbegin-rend) having rbegin to be the last (not "past the last") and rend to be "before the first" (not "the first") hence a 1 difference to be accommodated.

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