Containers that support the subscript operator (i.e.,
std::array are collections of homogenous values. Whatever the index provided to the subscript operator is, the value to return is always of the same type. Therefore, those containers can define a member function with the following declaration:
T is the type of every element in the collection.
On the other hand, an
std::tupe is a collection of heterogeneous values. The return value of a hypothetical subscript operator for
std::tuple needs to vary with the index. Therefore, its return type depends on the index.
In the declaration of the
operator given above, the index is provided as a function argument and therefore may be determined at run time. However, the return type of the function is something that needs to be determined at compile time, not at run time.
Since the return type of such a function depends on the index but must be determined at compile-time, the solution is to define instead a function template that accepts the index as a (non-type) template parameter. This way, the index is provided as a compile-time constant and the return type is able to change with the index:
template<std::size_t I, class... Types>
typename std::tuple_element<I, tuple<Types...>>::type& get(tuple<Types...>&) noexcept;
As you can see,
std::get's return type depends on the index,