二叉樹先序遍歷����;(1)先序訪問根節(jié)點 (2)先序訪問左子樹 (3)先序訪問右子樹
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二叉樹中序遍歷�����;(1)中序訪問根節(jié)點 (2)中序訪問左子樹 (3)中序訪問右子樹
二叉樹后序遍歷���;(1)后序訪問根節(jié)點 (2)后序訪問左子樹 (3)后序訪問右子樹
測試用例:int a[10]={'1','2','3','#','#','4','#','#','5','6'}
代碼:
#include
using namespace std;
#include
#include
template
struct BinaryTreeNode
{
BinaryTreeNode* _left;
BinaryTreeNode* _right;
T _data;
BinaryTreeNode(const T& d)
:_left(NULL)
,_right(NULL)
,_data(d)
{}
};
template
class BinaryTree
{
public:
BinaryTree()
:_root(NULL)
{}
BinaryTree(const T* a,size_t size,const T& invalid)
{
size_t index = 0;
_root = _Create(a,size,index,invalid);
}
//BinaryTree(const BinaryTree& d)
//{
// BinaryTreeNode root = NULL;
//}
BinaryTree& operator = (const BinaryTree& d)
{
swap(root,d._root );
}
void PrevOrder()
{
_PrevOrder(_root);
}
void InOrder()
{
_InOrder(_root);
}
size_t Size()
{
_Size(_root);
}
size_t Depth()
{
return _Depth(_root);
}
size_t LeafSize()
{
return _LeafSize( _root);
}
void LevelOrder()
{
_LeavelOrder();
}
void PrevOrder_NonR()
{
_PrevOrder_NonR();
}
void InOrder_NonR()
{
_InOrer_NonR();
}
void PostOrder_NonR()
{
_PostOrder_NonR();
}
public:
protected:
BinaryTreeNode* _Create(const T*a,size_t size,size_t& index,const T& invalid)
{
BinaryTreeNode *root = NULL;
while(index (a[index]);
root->_left = _Create(a,size,++index,invalid);
root->_right = _Create(a,size,++index,invalid);
}
return root;
}
void _PrevOrder(BinaryTreeNode* root)
{
if(root == NULL)
{
return;
}
cout<_data<<" " ;
_PrevOrder(root->_left );
_PrevOrder(root->_right);
}
void _InOrder(BinaryTreeNode* root)
{
if(root == NULL)
{
return;
}
_InOrder (root->_left );
cout<_data<<" " ;
_InOrder (root->_right );
}
size_t _size(BinaryTreeNode* root)
{
if(root == NULL)
{
return 0;
}
return _Size(root->_left )+_Size(root->_right )+1;
}
size_t _Depth(BinaryTreeNode* root)
{
if(root == NULL)
{
return 0;
}
int left = _Depth(root->_left )+1;
int right = _Depth (root->_right )+1;
return (left>right?left:right);
}
size_t _LeafSize(BinaryTreeNode* root)
{
if(root == NULL)
{
return 0;
}
if(root->_left == NULL && (root->_right == NULL))
{
return 1;
}
return _LeafSize(root->_left)+_LeafSize (root->_right);
}
void _LeavelOrder()
{
queue*>q;
if(_root)
{
q.push(_root);
}
while(!q.empty())
{
BinaryTreeNode* front = q.front();
cout<_left)
{
q.push(_root->_left);
}
if(_root->_right)
{
q.push(_root->_right);
}
q.pop();
}
cout<*>s;
BinaryTreeNode* cur = _root;
while(cur||!s.empty())
{
while(cur )
{
cout<_data <<" ";
s.push(cur);
cur = cur->_left ;
}
if(!s.empty())
{
BinaryTreeNode* top = s.top();
cur = top->_right ;
s.pop();
}
}
}
void _InOrer_NonR()
{
stack*> s;
BinaryTreeNode* cur = _root;
while(cur||!s.empty())
{
while(cur)
{
s.push(cur);
cur = cur->_left ;
}
BinaryTreeNode* Top = s.top();
cout<_data<<" ";
cur = Top->_right ;
s.pop();
}
cout<* cur = _root;
stack*>s;
BinaryTreeNode* prev = NULL;
while(cur||!s.empty())
{
while(cur)
{
s.push(cur);
cur = cur->_left ;
}
BinaryTreeNode* top = s.top();
if(top->_right == NULL||top->_right == prev)
{
cout<_data <<" ";
s.pop();
prev = top;
}
else
cur = top->_right ;
//cout<* _root;
};
int main()
{
int a1[10] = {1,2,3,'#','#',4,'#','#',5,6};
BinaryTree b1(a1,10,'#');
//b1.InOrder();
//b1.InOrder_NonR ();
//b1.Depth();
//b1.PrevOrder_NonR();
b1.PostOrder_NonR();
system("pause");
return 0;
}
網(wǎng)頁題目:二叉樹的創(chuàng)建以及遞歸與非遞歸遍歷
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