I'm writing an InputIterator, which implements, among others, operator* and operator->.

My operator* returns a pair of references to (vector) elements. Operator* returns by value therefore.

According to cppreference:

The overload of operator -> must either return a raw pointer, or return an object (by reference or by value) for which operator -> is in turn overloaded.

What do I return then?

I cannot return a raw pointer; the pair has to be returned physically somehow. So possibly some wrapper with operator-> defined? Does it exist in standard library, or how is it generally done?

  • I thought I could return a wrapper which would hold the value as a data member and would have an operator-> defined to return pointer to its data member. But does it exist in std library?
    – Adam
    Oct 17, 2018 at 13:35
  • use std::pair or so Oct 17, 2018 at 13:39
  • But the iterator class or structure should already be a "wrapper", that references an element in your "container". Easiest solution for iterators is to either contain the current position, and from that you can get the "value" ("object") being referenced. Then it's easy to return a pointer to the referenced element. Oct 17, 2018 at 13:43
  • 2
    As a rough rule, if a class' operator*() (dereference) returns a value rather than a reference, it would be appropriate to question whether it should have an operator->() AT ALL. Idiomatically, object->a and (*object).a would normally be a reference to (or value of) the same entity, and achieving that is rather involved or sometimes impossible if operator*() returns by value.
    – Peter
    Oct 17, 2018 at 13:43
  • @Someprogrammerdude it's not my case, but if you had more iterators in a vector e.g. and sequentially processed them, the iterators with the value type stored would take excessive space as opposed to iterators returning a wrapper/proxy on dereference/->.
    – Adam
    Oct 17, 2018 at 13:50

2 Answers 2

template<class T>
struct fake_ptr_with_value {
  T t;
  T* operator->() { return std::addressof(t); }

return a fake_ptr_with_value<decltype(**this)>.

No such helper type is exposed from std.

Please note that due to defects in the specifications of what various iterator classes require, this is only usable for InputIterators. Forward iterators (and all more powerful iterators, like random access iterators), under the standard, require that operator* return a reference to a true and stable object.

The defect is that the standard (a) in some cases requires references when pseudo-references would do, (b) mixes "iteration" and "dereference" semantics.

Rangesv3 has a more decoupled iterator category system that addresses some, if not all, of these defects.

As this question is about input iterators, this solution is sufficient; I am just including this caution in case someone wants to use this technique elsewhere. Your code may compile and seem to work, but you are almost certainly going to be violating the requirements of the C++ standard when you pass your iterator to any std function, which means your program is ill-formed no diagnostic required.

  • And when someone does auto const& foo = it->foo; they have a dangling reference? Aug 8, 2020 at 18:03
  • @ayxan yes, they made a dangling reference there. That is one of the limitations of input iterators; you are not guaranteed * or -> object long term existence. Aug 8, 2020 at 18:05
  • It's interesting that auto const& ref = *it is OK but auto const& foo = it->foo dangles. I do understand the reason but it's a bit deceiving. Aug 8, 2020 at 18:19
  • @Ayxan Wait until you play with (*it).foo. Aug 8, 2020 at 22:21
  • Wouldn't it better to use decltype(std::addressof(t)) operator->()? Oct 21, 2020 at 14:36

Since -> will continue "drilling down" until it hits a pointer return type, your code could return a "proxy" for the pair with the pair embedded in it:

template<class T1, class T2>
class pair_proxy {
    std::pair<T1,T2> p;
    pair_proxy(const std::pair<T1,T2>& p) : p(p) {}
    std::pair<T1,T2>* operator->() { return &p; }

Note: I would strongly consider embedding std::pair in your iterator, and returning a pointer to it from your operator ->() implementation.

  • 1
    Embedding is necessary to be a ForwardIterator. (This is a bit unfortunate, since for many types multi-pass algorithms can be written efficiently even with by-value operator*.) Oct 18, 2018 at 1:34

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