The following code compiles perfectly if:

  1. I don't include <iostream> or

  2. I name operator== as alp::operator==.

I suppose there is a problem with <iostream> and operator==, but I don't know what.

I compile the code with gcc 7.3.0, clang++-6.0 and goldbolt. Always the same error.

The problem is that the compiler is trying to cast the parameters of operator== to const_iterator, but why? (I suppose the compiler doesn't see my version of operator==, and looks for other versions).

#include <vector>
#include <iostream> // comment and compile

namespace alp{

template <typename It_base>
struct Iterator {
    using const_iterator    = Iterator<typename It_base::const_iterator>;

    operator const_iterator() { return const_iterator{}; }

template <typename It_base>
bool operator==(const Iterator<It_base>& x, const Iterator<It_base>& y)
{ return true;}

}// namespace

struct Func{
    int& operator()(int& p) const {return p;}

template <typename It, typename View>
struct View_iterator_base{
    using return_type     = decltype(View{}(*It{})); 

    using const_iterator =
              View_iterator_base<std::vector<int>::const_iterator, Func>;

using view_it =
    alp::Iterator<View_iterator_base<std::vector<int>::iterator, Func>>;

int main()
    view_it p{};
    view_it z{};

    bool x = operator==(z, p); // only compiles if you remove <iostream>
    bool y = alp::operator==(z,p); // always compile

Error message:

yy.cpp: In instantiation of ‘struct View_iterator_base<__gnu_cxx::__normal_iterator<const int*, std::vector<int> >, Func>’:

yy.cpp:9:73:   required from ‘struct    alp::Iterator<View_iterator_base<__gnu_cxx::__normal_iterator<const int*, std::vector<int> >, Func> >’

yy.cpp:44:29:   required from here

yy.cpp:28:42: error: no match for call to ‘(Func) (const int&)’
 using return_type   = decltype(View{}(*It{}));
yy.cpp:22:10: note: candidate: int& Func::operator()(int&) const <near match>
 int& operator()(int& p) const {return p;}
yy.cpp:22:10: note:   conversion of argument 1 would be ill-formed:
yy.cpp:28:42: error: binding reference of type ‘int&’ to ‘const int’ discards qualifiers
 using return_type   = decltype(View{}(*It{}));
  • The program is ill-formed regardless of whether <iostream> is included. I don't know why those compilers fail to diagnose the issue when it isn't included.
    – eerorika
    Mar 25, 2019 at 19:34
  • And why is ill-formed?
    – Antonio
    Mar 25, 2019 at 19:51
  • The problem, as mentioned by @Artyer, is on the using const_iterator = View_iterator_base<std::vector<int>::const_iterator, Func>; line. Here you have a const_iterator you try to pass to Func.
    – Mihayl
    Mar 25, 2019 at 19:56
  • Yes I know. This is an iterator, so I need to provide iterator and const_iterator and an implicit cast from iterator to const_iterator. Bur in my code I'm not using const_iterator. Is the compiler who tries to convert iterator to const_iterator when I call operator==
    – Antonio
    Mar 25, 2019 at 20:05
  • The compiler needs it while instantiating your template. You can see it if you try to explicitly instantiate it like: namespace alp { template struct Iterator<View_iterator_base<std::vector<int>::iterator, Func>>; } It'll fail no matter whether you include iostremaor not. our program is just ill-formed.
    – Mihayl
    Mar 25, 2019 at 20:29

1 Answer 1


I've made a more minimal test case here: https://godbolt.org/z/QQonMG .

The relevant details are:

  • A using type alias does not instantiate a template. So for example:

    template<bool b>
    struct fail_if_true {
        static_assert(!b, "template parameter must be false");
    using fail_if_used = fail_if_true<true>;

    will not cause a compile time error (if fail_if_used isn't used)

  • ADL also inspects template parameter classes. In this case, std::vector<int>::iterator is __gnu_cxx::__normal_iterator<const int*, std::vector<int> >, Func>, which has a std::vector<int> in it's template. So, operator== will check in the global namespace (always), alp (As alp::Iterator is in alp), __gnu_cxx and std.

  • Your View_iterator_base::const_iterator is invalid. View_iterator_base::const_interator::result_type is defined as decltype(Func{}(*std::vector<int>::const_iterator{})). std::vector<int>::const_iterator{} will be a vectors const iterator, so *std::vector<int>::const_iterator{} is a const int&. Func::operator() takes an int&, so this means that the expression is invalid. But it won't cause a compile time error if not used, for the reasons stated above. This means that your conversion operator is to an invalid type.
  • Since you don't define it as explicit, the conversion operator (To an invalid type) will be used to try and match it to the function parameters if they don't already match. Obviously this will finally instantiate the invalid type, so it will throw a compile time error.
  • My guess is that iostream includes string, which defines std::operator== for strings.

Here's an example without the std namespace: https://godbolt.org/z/-wlAmv

// Avoid including headers for testing without std::
template<class T> struct is_const { static constexpr const bool value = false; } template<class T> struct is_const<const T> { static constexpr const bool value = true; }

namespace with_another_equals {
    struct T {};

    bool operator==(const T&, const T&) {
        return true;

namespace ns {
    template<class T>
    struct wrapper {
        using invalid_wrapper = wrapper<typename T::invalid>;
        operator invalid_wrapper() {}

    template<class T>
    bool operator==(const wrapper<T>&, const wrapper<T>&) {
        return true;

template<class T>
struct with_invalid {
    static_assert(!is_const<T>::value, "Invalid if const");
    using invalid = with_invalid<const T>;

template<class T>
void test() {
    using wrapped = ns::wrapper<with_invalid<T>>;
    wrapped a;
    wrapped b;
    bool x = operator==(a, b);
    bool y = ns::operator==(a, b);

template void test<int*>();

// Will compile if this line is commented out
template void test<with_another_equals::T>();

Note that just declaring operator const_iterator() should instantiate the type. But it doesn't because it is within templates. My guess is that it is optimised out (where it does compile because it's unused) before it can be checked to show that it can't compile (It doesn't even warn with -Wall -pedantic that it doesn't have a return statement in my example).

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