template<class T>
void BinaryTree<T>:: PrevOrderNoRec()
{
if (_root == NULL)
{
return;
}
stack<Node*> s;
s.push(_root);
while (!s.empty())
{
Node* top = s.top();//獲取棧頂
cout << top->_data << " ";
s.pop();
//右孩子入棧
if (top->_rightChild)
{
s.push(top->_rightChild);
}
//左孩子入棧
if (top->_leftChild)
{
s.push(top->_leftChild);
}
}
cout << endl;
}
template<class T>
void BinaryTree<T>::InOrderNoRec()
{
if (_root == NULL)
{
return;
}
Node* cur = _root;
stack<Node*> s;
while (cur||!s.empty())//如果棧爲空並且cur==NULL跳出循環
{
//找到最左下方的節點訪問
while (cur)
{
s.push(cur);
cur = cur->_leftChild;
}
Node* top = s.top();
cout << top->_data << " ";
s.pop();
//如果右子樹不爲空則按照中序遍歷,重新找到最左下角的繼續訪問
if (top->_rightChild)
{
cur = top->_rightChild;
}
//如果右子樹爲空,則cur==NULL,不會再次進入循環,直接出棧訪問
}
cout << endl;
}
template<class T>
void BinaryTree<T>::PosOrderNoRec()
{
if (_root == NULL)
{
return;
}
Node* cur = _root;//當前指針
Node* prev = NULL;//棧內的前驅指針
stack<Node*> s;
while (cur || !s.empty())
{
//找到最左下角節點
while (cur)
{
s.push(cur);
cur = cur->_leftChild;
}
Node* top = s.top();
//如果右子樹爲空,或者之前訪問過則輸出
if (top->_rightChild == NULL || prev == top->_rightChild)
{
cout << top->_data << " ";
prev = top;//出棧之前更新prev
s.pop();
}
else
{
cur = top->_rightChild;
}
}
cout << endl;
}
