So basically what I want to do is to have a pure virtual method returning an iterator to an arbitrary collection of a concrete type, e.g in pseudo code:

virtual Iterator<T> getIterator() const = 0;

The user of this class actually don't care what implementation the child class uses. It could be a set, vector, list, array etc.

I'm aware of the std::iterator class but I cant find a way to specify it correctly in order to work with a simple vector.

virtual std::iterator<std::random_access_iterator_tag,T> getIterator() const = 0;

myVector.begin() // compilation error in implementation

defining std::iterator with const T as type parameter hasn't worked too. I also tried leaving T and instead defining the pointer and reference types as const T* and const T&.

By taking a look at the std::vector implementation, I found out that std::vector::const_iterator actually derives from _Iterator012 deriving from _Iterator_base.

It really bugs me that there isn't any way to work with arbitrary collections in std. Implementing my classes as templates like in <algorithm> is not an option for me due two reasons:

  • No control over the actual value type
  • I simply don't want to make my classes templates complicating my design a lot and making things less flexible.

The used type parameter T was just for demonstration, actually this is a concrete type.

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    This article could be useful. – juanchopanza Dec 2 '12 at 15:28
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    This is precisely what templates are for and the standard library uses them. They only make your code more flexible! – Joseph Mansfield Dec 2 '12 at 15:30
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    So you want templates, without using templates, and it bothers you that, aside from the huge feature of templates, C++ doesn't support templates. Yeah you may be on to something here. – Lightness Races in Orbit Dec 2 '12 at 15:33
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    @LightnessRacesinOrbit Please leave this question. I simply dont want to argue with someone being that sarcastic for no reason. And for one: I dont see the point explaining my whole architecture jsut to proof that templates are no option for me. In my concrete case I dont want to use them, live with it. Cant anyone come up with concrete solutions instead of discussing paradigmas? – Sebastian Hoffmann Dec 2 '12 at 15:36
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    If you don't mind dynamic allocation, you could make a simple type-erasing iterator for your value type. – Kerrek SB Dec 2 '12 at 15:39

Here's a basic and very rudimentary skeleton approach using type erasure. You'll have to fill in a lot of missing details, though!

#include <memory>

template <typename T>
class TEIterator
    struct TEImplBase
        virtual ~TEImplBase() { }
        virtual std::unique_ptr<TEImplBase> clone() const = 0;
        virtual void increment() = 0;
        virtual T & getValue() = 0;
        T * getPointer() { return std::addressof(getValue()); }

    template <typename Iter>
    struct TEImpl
        Iter iter;

        TEImpl(Iter i) : iter(i) { }

        virtual T & getValue()
        { return *iter; }

        virtual std::unique_ptr<TEImplBase> clone() const
        { return std::unique_ptr<TEImplBase>(new TEImpl<Iter>(*this)); }

        virtual void increment()
        { ++iter; }

    std::unique_ptr<TEImplBase> impl;


    template <typename T>
    TEClass(T && x)
    : impl(new TEImpl<typename std::decay<T>::type>(std::forward<T>(x)))

    TEClass(TEClass && rhs) = default;

    TEClass(TEClass const & rhs) : impl(rhs.impl.clone()) { }

    TEIterator & operator++()
        return *this;

    T & operator*() { return impl->getValue(); }
    T * operator->() { return impl->getPointer(); }


std::vector<int> v;
std::deque<int> dq;

TEIterator<int> a = v.begin(), b = dq.end();
  • As a note: Some people advocate type erasure much more generously on the grounds that it provides strict value semantics to a polymorphic concept. As you can see, you need boilerplate code that extracts the relevant behaviour from the payload class. There's a proposed Boost library to make those wrapper classes in a systematic fashion, I think. – Kerrek SB Dec 2 '12 at 16:36
  • I would recommend using the boost iterator helpers. Stick a type erased pImpl inside and implement the required methods. – Yakk - Adam Nevraumont Dec 2 '12 at 17:54

If you want to use a virtual method, you cannot use an arbitrary return value. What you can do, is define a base class, which is a wrapper around iterators, and subclass from that wrapper class.

But even then, you must restrict yourself to the smallest common denominator, since there are several iterator classes in the C++ standard library.

So, AFAICS, such a method with arbitrary iterators isn't really feasible without using templates.

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    A simple polymorphic class is not so good, though, because iterators need to be passable by value. – Kerrek SB Dec 2 '12 at 15:48
  • @KerrekSB Yes, but ... if you have a base class with a virtual method, and this is what the OP has, there is no way to return arbitrary types. No if or when or type erasure. – Olaf Dietsche Dec 2 '12 at 16:04

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