I would like to have a function that will take any range/view of a fixed value type.

int main()
    std::array<std::pair<int, int>, 2> a{...};
    std::array<std::pair<int, int>, 3> b{...};


Of course I could do

template <std::ranges::range R>
    requires std::same_as<std::ranges::range_value_t<R>,std::pair<int,int>>
auto generic_fun(R range)
    for(const auto& element : range)
        return element.first;

but then the visual studio ide doesn't know the type of element.

I was expecting the ranges library to have some type like

template <typename T>
struct view
    template <std::ranges::range R>
        requires std::same_as<std::ranges::range_value_t<R>, T>
    T* begin() const;
    T* end() const;

Which would give me ide support for

auto generic_fun(view<std::pair<int,int>> a)
    for (const auto& b : a)
        return b.first;

Why doesn't such a type exist in the ranges library? Is it technically infeasible to define a type that abstracts away all but the value type of ranges/iterators? Or does no-one care about doing this because the only reason is ide support?

I though it would be natural to have a type (templated on a given value type) that wraps a given iterator concept, but std doesn't define any. (If there's something to read on the internet about types that wrap concepts, could you point me there please?)

  • Are all your types arrays? Your question only uses those as an example, and your hypothetical view<T> would only work for contiguous ranges... so if that's the case, then this is the same question with the same answer: use span.
    – Barry
    Jul 29, 2021 at 23:54
  • Yes, that's my question. But I was looking for understanding of ranges and concepts, rather than to solve the problem that motivated the question Jul 29, 2021 at 23:58
  • 2
    I mean, if the question is "why doesn't ranges provide a type erased view for a contiguous range?" the answer is "it does: span<T>". If the question is not that, it would be helpful to clarify what the question is. Perhaps, dropping the contiguous part?
    – Barry
    Jul 30, 2021 at 0:00
  • @TomHuntington: Is this question really just about IDE support? Because neither the language nor the library exists to make your IDE happy. If you want to make it happy, then just use the actual type instead of auto. After all, you wrote it in. Jul 30, 2021 at 0:21
  • 1
    @TomHuntington: Generally speaking, you would only use type erasure for an algorithm or other consumer of a range if you had no other choice. Really, the same goes for type erasure in all of its forms. Jul 30, 2021 at 0:38

1 Answer 1


range-v3 has this under the name any_view<Ref, Cat>, where Ref is the range's reference (not value_type) and Cat is the iteration category (which defaults to input). That would let you write a function like:

int sum(any_view<int const&> v) { // <== not a function template
    int s = 0;
    for (int i : v) {
        s += i;
    return s;

std::list<int> l = {1, 2, 3};
assert(sum(l) == 3);

The problem is, this range adapter is extremely expensive. Think about the way that iteration works. We have a loop like:

for (; it != end; ++it) {

Even for input iterators, that means you have to type erase:

  • operator!=
  • operator++
  • operator*

And that's three indirect calls per element (either virtual function calls, or through a function pointer, depending on implementation). That's a lot of overhead, and it's very rarely something that you would actually want to use anyway. As a result, it was very low priority as far as range adaptors to add into C++20 and isn't even on our plan for adding range adaptors in the future.

Now, for contiguous ranges the story is a bit different, since you can always store just (T*, size_t) and it doesn't matter what the original range was. It's still type erasure, but it's free - there's no added overhead. So span<T> is great in that regard.

Or does no-one care about doing this because the only reason is ide support?

There are situations where type erasure actually is important. Maybe you're storing a bunch of ranges of different types. Maybe you're hiding this across an ABI boundary. But IDE support seems like a very weak motivator for using type erasure - especially in a context like this where there is fairly significant performance overhead to doing this.

[...] but then the visual studio ide doesn't know the type of element.

You could also fix that by not using auto.

  • When I already have std::span to use with std::array I can see how it's rarely something you would want to use. Is there a reason why container<T> returns iterators of type container<T>::iterator instead of iterator<T> ? Jul 30, 2021 at 4:35
  • @TomHuntington The iterator for vector<int>, list<int>, deque<int>, and forward_list<int> have very different characteristics - they couldn't all be the same type.
    – Barry
    Jul 30, 2021 at 13:39
  • 1
    Interfaces aren't zero cost abstractions so we need concepts and templates, that's what makes c++ special. Thanks for your time! Jul 30, 2021 at 22:32

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