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I'm new to C++ thus the question. I've a toy implementation of a Singly Linked List in C++.

template<typename T>
class List {
    template<typename U>
    struct Node {
        U data_;
        Node<U>* next_;

        Node() : data_(0), next_(nullptr) {}
        Node(U data) : data_(data), next_(nullptr) {}
    };

private:
    Node<T>* head_;
    std::size_t size_;

public:
    List() : head_{nullptr}, size_{0} {}

    void insert(const T& item) {
        Node<T>* p(new Node<T>(item));
        if (size_ == 0) {
            head_ = p;
        } else {
            p->next_ = head_;
            head_ = p;
        }
        size_++;
    }
    std::size_t getSize() {
        return size_;
    }

    ~List(){
    while(head_){
        Node<T> p = head_;
        delete(p);
        head_ = head_->next_;
    }
};

This code seems to work. The problem though is that the objects allocated by new are never cleaned up, despite the ~List() destructor. Can someone help me understand, how I can write a destructor for this class that cleans up all the allocated nodes ?

Important remark: I am aware that this can be done using smart pointers, but I want to understand the old school way of managing heap.

16

2 Answers 2

7
while(head_){
    Node<T> p = head_; <-- change to pointer
    delete(p); <-- you can't delete this right now
    head_ = head_->next_;
}

p should be a pointer. You cannot delete p right away. You have to find the next node, and delete p later. Also use delete p; instead of delete (p); as follows:

~List() {
    while(head_) {
        Node<T> *p = head_;
        head_ = head_->next_;
        delete p;
    }
}

As noted in comments, Node does not need to be a template. You can simplify your class. insert can also be simplified because head_ is initialized to nullptr, you can safely assign p->next_ = head_;

template<typename T> class List {
    struct Node {
        T data_;
        Node* next_;
        Node() : data_(0), next_(nullptr) {}
        Node(T data) : data_(data), next_(nullptr) {}
    };
    Node* head_;
    std::size_t size_;
public:
    List() : head_{ nullptr }, size_{ 0 } {}

    void insert(const T& item) {
        Node* p = new Node(item);
        p->next_ = head_;
        head_ = p;
        size_++;
    }

    std::size_t getSize() {
        return size_;
    }

    ~List() {
        while(head_) {
            Node *marked = head_;
            head_ = head_->next_;
            delete marked;
        }
    }
};
0
0

The general idea is that you have to figure out who is the owner of the object to decide who should delete it.

In relation to nodes, the List is the owner. So you should carefully develop all the methods in a way that once the List looses the ownership of the object, it makes sure that object is deleted or the ownership is taken over.

Obvious places when you want to free the memory is, first one you delete the list. Second, when you remove an element, for example pop it.

Lets look in both cases.

First delete the list. For that you need to write a destructor, which iterates over the list and deletes elements one by one. For that I refer to the answer of @barmak-shemiani.

For the case when you pop an element you can do following:

  T pop() {
    Node<T> *tmp = head_;
    if (head_ != nullptr) {
      head_ = head_->next_;
      T data = tmp->data_;
      delete tmp;
      return data;
    }

    throw std::runtime_error("Can't pop an empty list")
  }
3
  • 2
    The code you've posted won't even compile, and it's buggy. Dec 30, 2017 at 17:32
  • @Angew what's buggy about it?
    – mcsim
    Dec 30, 2017 at 18:08
  • What will it return when head_ is null when called? Either you expect it not to be, in which case the if is pointless, or you expect it could be, in which case you should handle it fully. Dec 30, 2017 at 18:11

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