#pragma once
#include<iostream>
#include<stack>
#include<queue>
using namespace std;
template<class T>
//定义二叉树的节点结构体
struct BinaryTreeNode
{
BinaryTreeNode <T>* _left;
BinaryTreeNode <T>* _right;
T _data;
//二叉树节点的构造函数,若去掉引用会构成死循环
BinaryTreeNode(T &data)
:_left(NULL)
,_right(NULL)
,_data(data)
{}
};
template<class T>
class BinaryTree
{
private:
typedef BinaryTreeNode<T> Node;
Node* _root;
public:
//无参的构造函数
BinaryTree()
:_root(NULL)
{}
//带参的构造函数
BinaryTree( T* a,size_t size,size_t index, const T& Invalid)
{
_root=_CreateBinaryTree(a,size,index,Invalid);
}
//创造二叉树
Node* _CreateBinaryTree( T* a,size_t size,size_t &index,const T& Invalid)
{
Node* root=NULL;
if(a[index]!=Invalid&&index<size)
{
root=new Node(a[index]);
root->_left=_CreateBinaryTree(a, size,++index,Invalid);
root->_right=_CreateBinaryTree(a, size,++index,Invalid);
}
return root;
}
//递归先序遍历二叉树
void PrevOrder( )
{
_PrevOrder(_root);
}
//
void _PrevOrder(Node* root)
{
if(root==NULL)
return;
cout<<root->_data<<" ";
_PrevOrder(root->_left );
_PrevOrder(root->_right);
}
//非递归先序遍历
void PrevOrder_NonR()
{
stack<Node*> s;
Node* cur=_root;
while(cur||!s.empty())
{
if(cur)
{//先将左子树遍历输出后压栈
cout<<cur->_data <<" ";
s.push(cur);
cur=cur->_left;
}
else
{//当左子树为空时开始访问右子树
cur=s.top ();
s.pop();
cur=cur->_right;
}
}
}
//递归中序遍历二叉树
void InOrder()
{
_InOrder(_root);
}
//
void _InOrder(Node* root)
{
if(root==NULL)
return;
_InOrder(root->_left );
cout<<root->_data <<" ";
_InOrder(root->_right );
}
//非递归中序遍历
void InOrder_NonR()
{
Node* cur=_root;
stack<Node*> s;
while(cur||!s.empty())//cur非空或者栈非空
{
if(cur)
{
s.push(cur);//根节点进栈遍历左子书树
cur=cur->_left;
}
else
{
Node* top=s.top();
cout<<top->_data<<" ";
s.pop();
cur=top->_right;
}
}
cout<<endl;
}
//递归后续遍历
void PostOrder()
{
_PostOrder(_root);
}
void _PostOrder(Node* root)
{
if(root!=NULL)
{
_PostOrder(root->_left);
_PostOrder(root->_right);
cout<<root->_data<<" ";
}
}
//非递归后序遍历
void PostOrder_NonR()
{
stack<Node*> s;
Node* cur=_root;
Node* prev=NULL;//设置标志域
s.push(_root);
while(!s.empty())
{
cur=s.top();
//
if((cur->_left ==NULL&&cur->_right ==NULL)
||(prev!=NULL&&(prev==cur->_left ||prev ==cur->_right )))
{
cout<<cur->_data<<" ";
prev=cur;
s.pop();
}
else
{
if(cur->_right!=NULL)
s.push(cur->_right);
if(cur->_left!=NULL)
s.push(cur->_left);
}
}
}
//层序遍历二叉树
void Leve1Order()
{
queue<Node*>q;
if(_root!=NULL)
{
q.push(_root);
}
while(!q.empty())
{
Node* front=q.front();
cout<<front->_data <<" ";
if(front->_left!=NULL)
q.push(front->_left);
if(front->_right!=NULL)
q.push(front->_right);
q.pop();
}
cout<<endl;
}
//求二叉树节点的个数
/*size_t Size()
{
return _Size(_root);
}
size_t _Size(Node* root)
{
if(root==NULL)
return 0;
return 1+_Size(root->_left)+_Size(root->_right);
}*/
//
size_t Size()
{
return _Size(_root);
}
//
size_t _Size(Node* root)
{
static size_t Ssize=0;
if(root==NULL)
return 0;
++Ssize;
_Size(root->_left);
_Size(root->_right);
return Ssize;
}
//二叉树的深度
size_t Depth()
{
return _Depth(_root);
}
size_t _Depth(Node* root)
{
if(root==NULL)
return 0;
size_t left=_Depth(root->_left )+1;
size_t right=_Depth(root->_right)+1;
return (left>right)?left:right;
}
//递归求二叉树叶子节点的个数
size_t LeafSize()
{
return _LeafSize(_root);
}
//
size_t _LeafSize(Node* root)
{
if(root==NULL)
return 0;
if(root->_left ==NULL&&root->_right ==NULL)
{
return 1;
}
return _LeafSize(root->_left )+_LeafSize(root->_right );
}
};
void test()
{
int arr[10]={1,2,3,'#','#',4,'#','#',5,6};
BinaryTree<int>bt(arr,10,0,'#');
cout<<"先序递归遍历:";
bt.PrevOrder();
cout<<endl;
cout<<"先序非递归遍历:";
bt.PrevOrder_NonR();
cout<<endl;
cout<<"中序递归遍历:";
bt.InOrder();
cout<<endl;
cout<<"中序非递归遍历:";
bt.InOrder_NonR();
cout<<endl;
cout<<"后序递归遍历:";
bt.PostOrder();
cout<<endl;
cout<<"后序非递归遍历:";
bt.PostOrder_NonR();
cout<<endl;
cout<<"层序遍历二叉树:";
bt.Leve1Order();
cout<<endl;
cout<<"二叉树的大小:"<<bt.Size()<<endl;
cout<<"二叉树的深度:"<<bt.Depth()<<endl;
cout<<"二叉树叶子节点个数:"<<bt.LeafSize()<<endl;
};
int main()
{
test();
getchar();
return 0;
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