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1) So i have made a somewhat modified form of linked list that has indexed based addressing and other delete functions. I am just gonna copy the header file i made...

 template<class T>
    class LinkedList
    {
        public:
          LinkedList();
         ~LinkedList();
          int del_node();  // deletes the Node and element
          int remove_node();  // deletes the Node only
          int get_length();   
          int search_node(T*); // matches the pointer to see if its the same element
          void add(T*);
          void clear_list(); // calls deletes on all nodes and all elements
          bool is_blank(); 
          T& get_at(int);      // operates like a vector get_at
private:
      struct Node
      {
        T* element;  // pointer passed to add(T*) is stored here.
        Node* next;
     }

Now see how i am adding an object in a linked list. I need to pass in an object pointer which i am passing in the form of

new Object()

This is particularly useful when i am adding Vertices of a graph. I just input the data and other fields from the user and call

LinkedList graph
graph.add(new Vertex(arguments));

Now there comes a situation when i have to copy some elements from the LinkedList A to B for temporary storage. Now i want to be able to remove elements from B after any kind of operation. But if i use delete it destroys the internal Node and deletes the object pointed by the pointer element i passed to it. So i created an additional function remove that only deletes the Node but not the object pointed by the element.

So i wanted to ask if its okay to do this or is there a design fault in my list and i should not be doing this? I am thinking of this from a library point of view for example if i would go about providing this class in a library. Is this suitable or will this confuse people? Any advice would be appreciated.

Please, I don't need any suggestions to use a replacement function/class/library like vector. I am studying Data Structures and i have to design any sort of data structure myself.

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  • 1
    A suggestion you should adhere to is to not name your functions/variables/classes with c++ keywords, like delete. – StoryTeller - Unslander Monica Oct 23 '16 at 7:59
  • oh yea actually i named it del xDD lemme correct it – gallickgunner Oct 23 '16 at 8:07
  • Following on from Story Teller's comment - your header file would not even compile due to use of language keywords as function names. Posting code like that tells other people you have just thrown the header together without much thought, and haven't even tried implementing the behaviour you describe. You need to try a little harder than that. – Peter Oct 23 '16 at 8:07
  • @Peter - you want me to post my implementation? – gallickgunner Oct 23 '16 at 8:08
  • Some selected parts, yeah. And a main() function, along with any description of behaviours that aren't what you expect/hope for. – Peter Oct 23 '16 at 8:13
1

The more idiomatic fashion is to have Node::~Node always call delete element;, but add a T* Node::release();. This is what std::unique_ptr does for instance.

The implementation is straight forward:

T* Node::release()
{
  T* tmp = element;
  element = nullptr;
  return tmp;
}

That way the Node d'tor is still correct, but you can "save" the data from deletion.

This is also the first step in addressing what I sense is a flaw in your implementation. You implement all functionality in LinkedList, even that which is relevant to the behavior of the internal class Node. Don't do that. Give Node a role and an interface related to that role. Than have LinkedList work by using that interface.

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  • Hmm ok i understand what you are talking about. But suppose the situation when i have a LinkedList A already created. Now i used the get_at() operator to return some specific elements and store them in LinkedList B. Do note that get_at() returns original object so both Lists have the same object. So if i call delete on element won't List A get disturbed as too? – gallickgunner Oct 23 '16 at 8:26
  • @wandering-warrior, than you are using the wrong language, you don't want to T& get(int idx) an element. You want to T* remove(int idx) it. – StoryTeller - Unslander Monica Oct 23 '16 at 8:28
  • Right. This means that i shouldn't store 1 object in 2 different lists? i.e if i want to store an object of List A in List B i should reallocate memory and copy the data for storing in list B? Am i right? – gallickgunner Oct 23 '16 at 8:55
  • @wandering-warrior, yes. If you have any sort of T* deletion, your class must have sole ownership of the pointed to object. – StoryTeller - Unslander Monica Oct 23 '16 at 8:59
  • Thanks for the feedback, mate. – gallickgunner Oct 23 '16 at 9:52
0

Ownership should be explicit when designing your class. For that, you can use explicit method names and return std::unique_ptr when you are transfering ownership. With explicit method names you should be able to remove your comments.

template<class T>
class LinkedList
{
   public:
      LinkedList(const LinkedList&);
      LinkedList(LinkedList&&);
      LinkedList& operator=(const LinkedList&);
      LinkedList& operator=(LinkedList&&);
      void free_element(int);  // deletes the Node and element
      std::unique_ptr<T> extract_element(int);  // deletes the Node only
      int get_length() const;
      void add_element(std::unique_ptr<T>);
      void absorb_element(T*);
      void free_all_elements(); // calls deletes on all nodes and all elements
};
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