,Implementation,for,linked,list,c++

Yavuz 9/1/2016 0

Implementation for linked list in C++

C++
	
	#include "LinkedList.h"

        /**
         * Construct the list
         */
        template <class Object>
        List<Object>::List( )
        {
            header = new ListNode<Object>;
        }

        /**
         * Copy constructor
         */
        template <class Object>
        List<Object>::List( const List<Object> & rhs )
        {
            header = new ListNode<Object>;
            *this = rhs;
        }

        /**
         * Destructor
         */
        template <class Object>
        List<Object>::~List( )
        {
            makeEmpty( );
            delete header;
        }

        /**
         * Test if the list is logically empty.
         * return true if empty, false otherwise.
         */
        template <class Object>
        bool List<Object>::isEmpty( ) const
        {
            return header->next == NULL;
        }

        /**
         * Make the list logically empty.
         */
        template <class Object>
        void List<Object>::makeEmpty( )
        {
            while( !isEmpty( ) )
                remove( first( ).retrieve( ) );
        }

        /**
         * Return an iterator representing the header node.
         */
        template <class Object>
        ListItr<Object> List<Object>::zeroth( ) const
        {
            return ListItr<Object>( header );
        }

        /**
         * Return an iterator representing the first node in the list.
         * This operation is valid for empty lists.
         */
        template <class Object>
        ListItr<Object> List<Object>::first( ) const
        {
            return ListItr<Object>( header->next );
        }

        /**
         * Insert item x after p.
         */
        template <class Object>
        void List<Object>::insert( const Object & x, const ListItr<Object> & p )
        {
            if( p.current != NULL )
                p.current->next = new ListNode<Object>( x, p.current->next );
        }

        /**
         * Return iterator corresponding to the first node containing an item x.
         * Iterator isPastEnd if item is not found.
         */
        template <class Object>
        ListItr<Object> List<Object>::find( const Object & x ) const
        {
/* 1*/      ListNode<Object> *itr = header->next;

/* 2*/      while( itr != NULL && itr->element != x )
/* 3*/          itr = itr->next;

/* 4*/      return ListItr<Object>( itr );
        }

        /**
         * Return iterator prior to the first node containing an item x.
         */
        template <class Object>
        ListItr<Object> List<Object>::findPrevious( const Object & x ) const
        {
/* 1*/      ListNode<Object> *itr = header;

/* 2*/      while( itr->next != NULL && itr->next->element != x )
/* 3*/          itr = itr->next;

/* 4*/      return ListItr<Object>( itr );
        }

        /**
         * Remove the first occurrence of an item x.
         */
        template <class Object>
        void List<Object>::remove( const Object & x )
        {
            ListItr<Object> p = findPrevious( x );

            if( p.current->next != NULL )
            {
                ListNode<Object> *oldNode = p.current->next;
                p.current->next = p.current->next->next;  // Bypass deleted node
                delete oldNode;
            }
        }

        /**
         * Deep copy of linked lists.
         */
        template <class Object>
        const List<Object> & List<Object>::operator=( const List<Object> & rhs )
        {
            ListItr<Object> ritr = rhs.first( );
            ListItr<Object> itr = zeroth( );

            if( this != &rhs )
            {
                makeEmpty( );
                for( ; !ritr.isPastEnd( ); ritr.advance( ), itr.advance( ) )
                    insert( ritr.retrieve( ), itr );
            }
            return *this;
        }

 

Report Bug

Please Login to Report Bug

Reported Bugs

Comments

Please Login to Comment

Comments