I'm writing an iterator facade, but it seems like my iterator will violate even basic Iterator concept. The problem is that the iterator accepts any Callable, which might render fundamental operations on Regular Types ill formed. I'm following definition presented by Alexander Stepanov. Here is the declaration:

template<typename Callable, typename Iterator>
class transform_iterator 

Question: How to wrap callable to make it regular type?

Actually I need wrapper only to be:

  • Copy constructible

  • Copy assignable

  • Destructible

and not Regular Type in general.

My first attempt: wrap into std::optional<>:

template <typename T>
class regular_box
    std::experimental::optional<T> value;

//constructors, operator=

    template <typename ... ArgTypes>
    auto operator()(ArgTypes&& ... args)
        return callable.value()(std::forward<ArgTypes>(args)...);

But it doesn't solve the problem with assignment, since if Callable is not copy assignable, the regular_box will not be copy assignable as well.

Plan B: std::function<>. Though I would like to postpone it for as long as possible.

I could make multiple levels of fallbacks, but I couldn't find any better solution than that.

  • 2
    I don't understand what you are trying to achieve and what the problem is. – bolov Mar 8 '17 at 11:41
  • @bolov, I store Callable as member of my transform iterator. So, if it is not regular, it will violate Iterator concept. – Incomputable Mar 8 '17 at 11:42
  • @Incomputable I'm not sure what you mean by "regular". Do you mean "copyable"? – TartanLlama Mar 8 '17 at 11:44
  • 1
    @TartanLlama, added the link to the paper by Alexander Stepanov. There is a table, which is actually the vital part. – Incomputable Mar 8 '17 at 11:44
  • @TartanLlama stackoverflow.com/questions/13998945/… – kennytm Mar 8 '17 at 11:45

There's some way to get such a type:

  1. Take a reference and store in reference_wrapper.
    Reference is obviously copy constructible.

  2. If you want to own the callback and manage the lifetime, store it in shared_ptr.
    This adds many overhead, but it just works.

  • I think that std::function would be much better fit then. – Incomputable Mar 8 '17 at 11:51
  • std::function erases the type and incur more overhead. If you're doing templates, do not use it. – Tatsuyuki Ishi Mar 8 '17 at 11:53
  • I think it should be measured to say for sure. I've heard that type erasure will lose effects when used a lot on the same type. – Incomputable Mar 8 '17 at 11:54
  • 1
    a std::shared_ptr based implementation would also need to erase the type and incur similar overhead – Caleth Mar 8 '17 at 11:54
  • 1
    @Caleth shared_ptr doesn't necessarily erase the type. Since the concrete type is provided in template argument, the overhead here is reference counting. – Tatsuyuki Ishi Mar 8 '17 at 11:59

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