std::tuple_element<std::tuple>
From cppreference.com
| Defined in header <tuple>
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||
| template< std::size_t I, class... Types > struct tuple_element< I, std::tuple<Types...> >; |
(since C++11) | |
Provides compile-time indexed access to the types of the elements of the tuple.
Contents |
Member types
| Type | Definition |
| type | the type of Ith element of the tuple, where I is in [0, sizeof...(Types))
|
Possible implementation
template<std::size_t I, class T> struct tuple_element; #ifndef __cpp_pack_indexing // recursive case template<std::size_t I, class Head, class... Tail> struct tuple_element<I, std::tuple<Head, Tail...>> : std::tuple_element<I - 1, std::tuple<Tail...>> { }; // base case template<class Head, class... Tail> struct tuple_element<0, std::tuple<Head, Tail...>> { using type = Head; }; #else // C++26 implementation using pack indexing template<std::size_t I, class... Ts> struct tuple_element<I, std::tuple<Ts...>> { using type = Ts...[I]; }; #endif |
Example
Run this code
#include <boost/core/demangle.hpp> #include <cstddef> #include <iostream> #include <string> #include <tuple> #include <typeinfo> #include <type_traits> #include <utility> namespace details { template<class TupleLike, std::size_t I> void printTypeAtIndex() { using SelectedType = std::tuple_element_t<I, TupleLike>; using RemovedRefType = std::remove_reference_t<SelectedType>; std::cout << " The type at index " << I << " is: "; std::cout << boost::core::demangle(typeid(SelectedType).name()); if constexpr (std::is_const_v<RemovedRefType>) std::cout << " const"; if constexpr (std::is_volatile_v<RemovedRefType>) std::cout << " volatile"; if constexpr (std::is_lvalue_reference_v<SelectedType>) std::cout << '&'; if constexpr (std::is_rvalue_reference_v<SelectedType>) std::cout << "&&"; std::cout << '\n'; } } template<typename TupleLike, std::size_t I = 0> void printTypes() { if constexpr (I == 0) std::cout << boost::core::demangle(typeid(TupleLike).name()) << '\n'; if constexpr (I < std::tuple_size_v<TupleLike>) { details::printTypeAtIndex<TupleLike, I>(); printTypes<TupleLike, I + 1>(); } } struct MyStruct {}; using MyTuple = std::tuple<int, long&, const char&, bool&&, std::string, volatile MyStruct>; using MyPair = std::pair<char, bool&&>; static_assert(std::is_same_v<std::tuple_element_t<0, MyPair>, char>); static_assert(std::is_same_v<std::tuple_element_t<1, MyPair>, bool&&>); int main() { printTypes<MyTuple>(); printTypes<MyPair>(); }
Possible output:
std::tuple<int, long&, char const&, bool&&, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >, MyStruct volatile> The type at index 0 is: int The type at index 1 is: long& The type at index 2 is: char const& The type at index 3 is: bool&& The type at index 4 is: std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> > The type at index 5 is: MyStruct volatile std::pair<char, bool&&> The type at index 0 is: char The type at index 1 is: bool&&
See also
| Structured binding (C++17) | binds the specified names to sub-objects or tuple elements of the initializer |
| (C++11) |
obtains the element types of a tuple-like type (class template) |
