I'm trying to write an iterator adaptor for a class built on top of a map. I'm having issue when trying to get the mapped type from the iterator type. Basically I'd like to get:

  • map<Key,Val>::iterator --> Val
  • map<Key,Val>::const_iterator --> Val const

Here is a minimal repro.

#include <map>
#include <type_traits>
template <typename BaseIteratorT>
using ValueType = typename BaseIteratorT::value_type::second_type;
// Passes
    std::is_same<ValueType<std::map<double, int>::iterator>, int>::value,
    "bad type for mutable iterator");

// Fails
    std::is_same<ValueType<std::map<double, int>::const_iterator>, const int>::value,
    "bad type for const iterator");

How can I achieve that (C++14)?

  • 6
    The issue in this code that pair<A,B>::second_type is always B , member typedefs don't morph according to constness
    – M.M
    Sep 1, 2020 at 23:06
  • 1
    Why would you want const val? It makes no sense. If you wanted reference val& to const val& then it'd make sense but not value.
    – ALX23z
    Sep 1, 2020 at 23:35
  • value_type is the type not the reference type. So the constness doesn't matter to it. stackoverflow.com/a/12821204
    – yao99
    Sep 1, 2020 at 23:49

2 Answers 2


For almost all practical purposes, types you might want to deduce is tied to some expression, in which case decltype is always the answer

template<typename T>
using mapped_type = std::remove_reference_t<decltype((std::declval<T>()->second))>;

using m = std::map<char, int>;
using i = mapped_type<m::iterator>  // int
using ci = mapped_type<m::const_iterator>  // const int

The value_type of a std::map is std::pair<const Key, T>. The second_type of that pair is just T, not const T, not const T&, just T. Dereferencing a map::const_iterator will return a const pair& reference, but that will not change that pair's second_type to const. If you want that, detect whether the iterator's value_type is const or not, such as with std::is_const, and if so then apply const to its second_type, such as with std::add_const.

  • you are right. Based on this I came with an implementation based on partial template specialization of a type for the iterator and const_iterator types. And another solution based on std::conditional and std::is_const. @PasserBy solution is even simpler. Sep 2, 2020 at 5:02

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