I am currently learning metaprograming in C++, and I'm trying to see whether an element of a tuple is a pointer. I tried this approach:

int a = 3, b = 4;
auto tup = std::make_tuple(&a, b);
std::cout << std::is_pointer<decltype(std::get<0>(tup))>::value; //prints 0

I thought this was strange, so I examined the type clang deduced (I'm using clang-10), which is

__tuple_element_t<0UL, tuple<int *, int>

And it looks like some internal type.

Why do I get this weird type and what would be the proper way to get the actual type of an element of the tuple? I have only a solution which uses an intermediate auto variable, but is hardly optimal.


std::is_same/std::is_same_v can be very helpful in TMP and, when looking for types being equal to other types, it's invaluable when used in conjunction with static_assert.

With the following code you can see that std::get gives you a reference to the element of the tuple (as confirmed by cppreference's page on std::get), in this case int*&, where int* is the type of the element. If you use it to initialize another variable you get a copy of it (so no more reference for elem, just int*), just like int x = r; defines x to be a copy of r regardless of r being a reference or not.

#include <type_traits>
#include <tuple>

int main() {
    int a = 3, b = 4;
    auto tup = std::make_tuple(&a, b);
    auto elem = std::get<0>(tup);
    static_assert(std::is_same_v<decltype(elem), int*>,"");
    static_assert(std::is_same_v<decltype(std::get<0>(tup)), int*&>,"");

As regards your attempt, the fact that the second static_assert above is passing, explains why std::is_pointer<decltype(std::get<0>(tup))>::value prints false/0: that is a reference to int*, not an int*. On the other hand, the following does print true/1:

std::cout << std::is_pointer_v<std::remove_reference_t<decltype(std::get<0>(tup))>>;

See that I've used is_pointer_v instead of is_pointer and is_same_v instead of is_same? Those with _v are helper metafunctions that give you the value member of the non-_v metafunctions. remove_reference_t works similarly with respect to remove_reference, but giving the type member.


As Enrico explained, the type you were getting was a reference. In addition to his answer, I'd say you can get the actual type of the element of the tuple more easily with:

std::tuple_element_t<0, decltype(tup)>

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.