I've implemented a double linked list using weak and smart pointers. The program is working but I have doubts about that const in the getPrev signature method. If I put const a the end of the method signature it will cause a binding reference error

error: binding reference of type 'std::weak_ptr<Node<Integer> >&' to 'const std::weak_ptr<Node<Integer> >' discards qualifiers
         return prev;

Wasn't the purpose of that const to mark *this as const ? The return type is non-const for my understanding.

Here is the code, main.cpp:

#include <memory>
#include <iostream>
#include "DoubleLinkedList.h"

class Integer {
    int number;
    Integer(int number) : number(number) {}

    int get() { return number; }


int main() {

    DoubleLinkedList<Integer> list;

    return 0;


#include <memory>
#include <vector>
#include <iostream>

template <typename T>
class Node {
    T data;
    std::weak_ptr<Node> prev;
    std::shared_ptr<Node> next;
    Node(): data(0) {}

    Node(const T &object) : data(object) {};

    T getData() const {
        return data;

    void setData(T data) {
        Node::data = data;

    std::weak_ptr<Node> &getPrev() const {
        return prev;

    void setPrev(const std::weak_ptr<Node> &prev) {
        Node::prev = prev;

    std::shared_ptr<Node> &getNext() {
        return next;

    void setNext(const std::shared_ptr<Node> &next) {
        Node::next = next;

template <typename T>
class DoubleLinkedList {
    std::shared_ptr<Node<T>> header;
    std::weak_ptr<Node<T>> trailer;
    int size;

    DoubleLinkedList() : size(0) {}

    void insert(const T &value) {
        auto node = std::make_shared<Node<T>>(value);

        if (size++ == 0) {
            header = node;
        } else {
            auto last = trailer.lock();
            last->getNext() = node;
            node->getPrev() = last;
        trailer = node;

  • "Wasn't the purpose of that const to mark *this as const ?" You are absolutely right. "The return type is non-const for my understanding". You're right once again. And you can't convert const to a non-const like that. C++ does not work this way. – Sam Varshavchik Jul 16 '19 at 12:25
  • You should use unique_ptr here! Take a look on this coll cppcon talk. – Marek R Jul 16 '19 at 12:29
  • every other post here consists of list implementations, why is this a thing? Is it a frequent homework task? – Stack Danny Jul 16 '19 at 12:45
  • @StackDanny Yes, it is. – Lightness Races in Orbit Jul 16 '19 at 12:48
  • 1
    A reference is not another syntax for a pointer, a reference doesn't actually exist, it literally binds to some other variable at compile time. That other variable, a member of a const class (when *this is const), is also const. – rustyx Jul 16 '19 at 13:03

If you are inside a const method, all the data members are considered const.

That is, inside this function:

std::weak_ptr<Node> &getPrev() const

you can imagine the member variables like this:

const T data;
const std::weak_ptr<Node> prev;
const std::shared_ptr<Node> next;

It should be clear that you cannot return a non-const reference to a const object:

const int x;

int& getX()
  return x; // error

The reference would allow you to modify x even though it is const, so this is forbidden (formally: a non-const reference cannot bind to a const object).

Inside a const member function of Node, prev is a const std::weak_ptr<Node>, so a std::weak_ptr<Node>& cannot bind to it for the exact same reason.

It appears that within insert you do intend to modify node (by changing its prev value), in which case the getPrev function should not be const (because you intend to modify the object). But this kind of access should probably be reserved for the DoubleLinkedList and not some arbitrary outside user. It then becomes a question of interface design: Which parts of your code are implementation details and how those should be hidden from users? Which parts are the interface that users should interact with (with minimal opportunity for breaking things)?

  • Thanks for your answer. Maybe I'm just overusing const references, I always try to deisgn my classes to avoid copies. Anyway, if I declare the node inside the insert function as const auto& node = std::make_shared<Node<T>>(value); I can still do the assignment node->getPrev() = last;. Shouldn't that be forbidden? – Antonio Santoro Jul 16 '19 at 14:39
  • So, in the second part of your answer are you telling me that it is unnecessary to work by reference since user can only use the insert method of the list and cannot access the nodes in the list, but when then references should be strictly used? How can one tell if T will create huge objects and make expensive copies in terms of memory usage? – Antonio Santoro Jul 16 '19 at 14:39
  • @AntonioSantoro 1. Yes that was not clearly worded by me. Doing node->getPrev() = last when getPrev returns by value would assign to a temporary value and immediately discard it - I'll remove that part. 2. Whether T will create huge objects is irrelevant here. I also did not say that you should never use references. The solution is to not make getPrev() a const member function. I was discussing the implications of doing this - do users of DoubleLinkedList ever get to see a Node? In that case it would be extremely dangerous to leave this function public... – Max Langhof Jul 16 '19 at 15:15
  • So from your point of view I should get copies inside the insert function? Given that when in the signature is specified const, then why I can still do that assignment? Shouldn't be the returned reference const? – Antonio Santoro Jul 16 '19 at 20:00

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