Bit of an odd one, I successfully implemented my own templated linked list as an educational exercise a while back. Now I know it works, I've been using it to create a list of nodes that hold "Sprite" objects, and at the time I understood it but I went and looked back at it today and I'm really confused.

If you'd be kind enough to look at my implementation and help me figure out.

**How does the program KNOW that _data (in Node) should be assigned an object of NodeType?? (if you'll excuse the poor phrasing)** I mean I have that function `SetData`

but I never even use it. And when I PushBack on the list for example, I just create a new Node of ListType, but I never set that node's data. The node constructor doesn't say `_data = new NodeType`

or anything.

And yet I can call `GetData()`

on any node in my list and get a Sprite object back. I mean I know it works, but I've forgotten how! Could someone take a look and remind me? It'd be much appreciated!

**Node.hpp:**

```
#if !defined NODE_HPP
#define NODE_HPP
template<typename NodeType>
class Node{
public:
Node( Node* prev = 0, Node* next = 0);
void SetData(NodeType newData);
NodeType* GetData();
Node* GetPrev();
Node* GetNext();
private:
template<typename ListType>
friend class List;
NodeType _data;
Node* _prev;
Node* _next;
};
///implement Node
template <typename NodeType>
Node<NodeType>::Node(Node* prev, Node* next) : _prev(prev), _next(next)
{}
template <typename NodeType>
void Node<NodeType>::SetData(NodeType newData)
{
_data = newData;
}
template <typename NodeType>
NodeType* Node<NodeType>::GetData()
{
return &_data;
}
template <typename NodeType>
Node<NodeType>* Node<NodeType>::GetPrev()
{
return _prev;
}
template <typename NodeType>
Node<NodeType>* Node<NodeType>::GetNext()
{
return _next;
}
#endif //define
```

**List.hpp**

```
#if !defined LIST_HPP
#define LIST_HPP
#include "Node.hpp"
///since we're creating a template everything must be defined in the hpp
template <typename ListType>
class List
{
public:
List();
bool Empty();
void PushFront();
void PushBack();
void PopBack();
void ClearList();
Node<ListType>* GetHead();
Node<ListType>* GetTail();
int NumberOfNodes();
private:
Node<ListType>* _head;
Node<ListType>* _tail;
int _size;
};
///implement List class here
template <typename ListType>
List<ListType>::List() : _head(0), _tail(0), _size(0)
{
}
template <typename ListType>
bool List<ListType>::Empty()
{
return _size == 0;
}
template <typename ListType>
void List<ListType>::PushFront()
{
_head = new Node<ListType>( _head , 0 );
if(Empty()) //this is the start of a new list, need to set _tail as well
_tail = _head;
else
_head->_prev->_next = _head; //set previous nodes _next to new _head
++_size;
}
template <typename ListType>
void List<ListType>::PushBack()
{
_tail = new Node<ListType>( 0 , _tail);
if(Empty()) //this is the start of a new list, need to set _head as well
_head = _tail;
else
_tail->_next->_prev = _tail; // set old tails _prev to new tail
++_size;
}
template <typename ListType>
void List<ListType>::PopBack()
{
if(!Empty()){
if(_tail != _head)
{
_tail = _tail->_next;
delete _tail->_prev; //delete memory at old tail
_tail->_prev = 0; //reassign new tails _prev pointer to null
}
else // We are deleting the last node so treatment is a little different.
{
delete _tail;
_tail = 0; _head = 0;
}
--_size;
}
}
template <typename ListType>
void List<ListType>::ClearList()
{
while(!Empty())
PopBack();
}
template <typename ListType>
Node<ListType>* List<ListType>::GetHead()
{
return _head;
}
template <typename ListType>
Node<ListType>* List<ListType>::GetTail()
{
return _tail;
}
template <typename ListType>
int List<ListType>::NumberOfNodes()
{
return _size;
}
#endif //define
```