1

Please consider the following code snippet:

template<class Tuple>
class vector
{
public:
    auto size() const noexcept(noexcept(m_elements.size())) {
        return m_elements.size();
    }

    auto operator[](decltype(size()) i)
    {
        throw_if_index_out_of_range(i);
        return m_elements[i];
    }
    auto operator[](decltype(size()) i) const
    {
        throw_if_index_out_of_range(i);
        return m_elements[i];
    }

private:
    void throw_if_index_out_of_range(decltype(size()) i) const
    {
        if (i >= size())
            throw std::length_error("element index out of range");
    }

    Tuple m_elements;
};

Unfortunately, the code above won't compile with clang 3.6 (C++17). It produces the error message call to non-static member function without an object argument.

Can we save the idea of the usage of decltype(size()) or do I need to create some size_type = decltype(std::declval<Tuple const&>().size())?

  • 2
    Why not just use std::size_t as it is guaranteed to be large enough to contain the size in bytes of any object. – NathanOliver Mar 8 '16 at 17:08
  • @NathanOliver Cause Tuple might use some kind of "size" you're not aware of. An "index" might be a complicated object. – 0xbadf00d Mar 8 '16 at 17:11
  • @NathanOliver Moreover, the same question may arise in other scenarios. I'm primary interested in the the technical aspect of the question. – 0xbadf00d Mar 8 '16 at 17:14
  • No problem. I have never seen a non integer type used as an index but there is nothing stopping anyone from doing so. – NathanOliver Mar 8 '16 at 17:20
  • Even if decltype(size) were allowed, declaring a typedef would make thing clearer. using size_type = ..; – Jarod42 Mar 8 '16 at 17:23
0

There is only a limited scope within which this is a valid expression, and in your case it starts right after you need it. You can introduce an object (of sorts) to make sure the call to size is valid, playing the role of the implicit this->:

auto operator[](decltype( std::declval<vector&>().size() ) i);

That being said, I’d argue against it—and I’d argue against it even if you had access to this. The declaration is plainly hard to read and understand, for no benefit at all. Especially consider that you repeat the decltype( … ) in the const-qualified overload as well, with the consequence that a reviewer would have to carefully parse which expression is being tested there and backtrack to the previous overload to check what differences, if any, there are in the expressions.

Don’t repeat yourself, refactor:

using size_type = …; // choose one spec and stick to it

auto operator[](size_type i);
auto operator[](size_type i) const;

size_type doesn’t have to be part of the public interface either, we only care about avoiding repetition.

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