I was wondering if it is possible to implement a single (and possible double) linked list using std::experimental::optional.

template <typename T>
struct node {
    std::experimental::optional<node<T>> next;
    T data;

What are the advantages/disadvantages of such a design? Could new c++1z features be used to implement sentinels, or getting rid of them alltogether? Would this scale up to n-ary trees as well?

  • 1
    Did you try it? Looks like the first node is going to contain all others as values instead of pointers? Not sure how well that is going to scale.
    – stijn
    Aug 3, 2016 at 7:31

2 Answers 2


It is not possible to implement a linked list in that way, because your node-type will always be incomplete. Here is a more complete example that illustrates the issue:

#include <iostream>
#include <experimental/optional>

template <typename T>
struct node {
    std::experimental::optional<node<T>> next;
    T data;

int main( int, char ** )
    std::cout << sizeof( node<int> ) << std::endl;
    return 0;

The point is that optional<T> requires T to be complete but at the point where you define next, node is incomplete. The reason why optional<T> needs a complete type is that it stores T directly within the optional object, i.e. it does not allocate memory on the heap. As a result, it has to know the size of T. Internally, it contains a buffer of sizeof( T ). In terms of memory layout, you can think of optional<T> as

template <class T>
struct optional
    bool _containsValue;
    char _buffer[ sizeof( T ) ];

but in practice, it is more complicated, due to memory alignment requirements.

In your case, in order to know the size of optional<node>, it has to know the size of node and for this it has to know the size of optional<node>.


It's impossible because the optional<T> requires T to be complete.

As per N3672 (the proposal for std::optional):

Class template optional imposes little requirements on T: it has to be either an lvalue reference type, or a complete object type satisfying the requirements of Destructible.

  • 2
    That is, sizeof(node) must be at least sizeof(next) + sizeof(data) and sizeof(next) must be greater than sizeof(node)...
    – rodrigo
    Aug 3, 2016 at 7:38
  • Does the same requirement hold for std::experimental::variant?
    – fuji
    Aug 3, 2016 at 7:45
  • 1
    @j.dog Not sure about the std::experimental::variant, but boost::variant does require complete types (when not using boost::recursive_variant, which uses dynamic allocation to store it outside of the object). Aug 3, 2016 at 7:57
  • 3
    Mentioning the fundamental reason, that an optional<T> contains enough data inside itself to store a T, would be better than only citing the standard. Aug 3, 2016 at 10:51
  • @Yakk Yeah, as with all such answers, one hopes the Standard imposes such requirements for a reason, and ultimately it's that reason that's interesting. Aug 3, 2016 at 12:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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