INF205/lab_3/sequences-int/singly-linked-list.h

#ifndef SINGLY_LINKED_LIST_H
#define SINGLY_LINKED_LIST_H

#include <cassert>
#include "sequence.h"
#include "queue.h"

namespace seq
{
   class SinglyLinkedListNode
   {
   public:
      // return a reference to the stored item
      int& get_item() { return this->item; }

      // return pointer to next node, or nullptr if this is the final node
      SinglyLinkedListNode* get_next() const { return this->next; }

      // overwrite the item stored in this node
      void set_item(int in_item) { this->item = in_item; }

   private:
      int item = 0;
      SinglyLinkedListNode* next = nullptr;

      // attach a node to this node
      // if there was a node attached to this previously, it is NOT deleted!
      void set_next(SinglyLinkedListNode* in_next) { this->next = in_next; }
      
      friend class SinglyLinkedList;  // allow SinglyLinkedList to access private members
   };

   class SinglyLinkedList: public Queue
   {
   public:
      bool empty() const { return (this->head == nullptr); }  // test whether the singly linked list is empty
      size_t size() const;  // return the size (number of items in the singly linked list)

      void enqueue(int element);
      int dequeue();

      void clear() { while(!this->empty()) this->dequeue(); }  // remove all the items from the list
      ~SinglyLinkedList() { this->clear(); }

   private:
      SinglyLinkedListNode* head = nullptr;
      SinglyLinkedListNode* tail = nullptr;
   };
}

#endif
init lab 3 2024-03-09 15:44:29 +00:00			`#ifndef SINGLY_LINKED_LIST_H`
			`#define SINGLY_LINKED_LIST_H`

			`#include <cassert>`
			`#include "sequence.h"`
17 2024-03-10 12:16:20 +00:00			`#include "queue.h"`
init lab 3 2024-03-09 15:44:29 +00:00
			`namespace seq`
			`{`
			`class SinglyLinkedListNode`
			`{`
			`public:`
			`// return a reference to the stored item`
			`int& get_item() { return this->item; }`

			`// return pointer to next node, or nullptr if this is the final node`
			`SinglyLinkedListNode* get_next() const { return this->next; }`

			`// overwrite the item stored in this node`
			`void set_item(int in_item) { this->item = in_item; }`

			`private:`
			`int item = 0;`
			`SinglyLinkedListNode* next = nullptr;`

			`// attach a node to this node`
			`// if there was a node attached to this previously, it is NOT deleted!`
			`void set_next(SinglyLinkedListNode* in_next) { this->next = in_next; }`

			`friend class SinglyLinkedList; // allow SinglyLinkedList to access private members`
			`};`

17 2024-03-10 12:16:20 +00:00			`class SinglyLinkedList: public Queue`
init lab 3 2024-03-09 15:44:29 +00:00			`{`
			`public:`
			`bool empty() const { return (this->head == nullptr); } // test whether the singly linked list is empty`
			`size_t size() const; // return the size (number of items in the singly linked list)`

17 2024-03-10 12:16:20 +00:00			`void enqueue(int element);`
			`int dequeue();`
init lab 3 2024-03-09 15:44:29 +00:00
17 2024-03-10 12:16:20 +00:00			`void clear() { while(!this->empty()) this->dequeue(); } // remove all the items from the list`
init lab 3 2024-03-09 15:44:29 +00:00			`~SinglyLinkedList() { this->clear(); }`

			`private:`
			`SinglyLinkedListNode* head = nullptr;`
			`SinglyLinkedListNode* tail = nullptr;`
			`};`
			`}`

			`#endif`