#include<iostream>
#include<iomanip>
#include<string>
#include<fstream>
#include<cmath>
#include<vector>
#include<stack>
#include<cstdio>
#include<array>
#include<vector>
#include<map>
#include<queue>
using namespace std;
typedef struct treenode {
char data;
struct treenode* left;
struct treenode* right;
}treenode,*treepoint;
treepoint println()
{
char S;
cin >> S;
if (S != '#')
{
treepoint head = new treenode{ '#',nullptr,nullptr };
head->data = S;
head->left=println();
head->right=println();
return head;
}
else
{
return nullptr;
}
}
void firstScan(treepoint head)
{
if (head != nullptr)
{
cout <<setw(3)<< head->data;
firstScan(head->left);
firstScan(head->right);
}
}
void secondScan(treepoint head)
{
if (head != nullptr)
{
secondScan(head->left);
cout << setw(3) << head->data;
secondScan(head->right);
}
}
void thirdScan(treepoint head)
{
if (head != nullptr)
{
thirdScan(head->left);
thirdScan(head->right);
cout << setw(3) << head->data;
}
}
void forthScan(treepoint treehead)
{
queue<treepoint> newqueue;
newqueue.push(treehead);
while (!newqueue.empty())
{
treepoint newhead = newqueue.front();
cout << setw(3) << newhead->data;
newqueue.pop();
if (newhead->left != nullptr)
{
newqueue.push(newhead->left);
}
if (newhead->right != nullptr)
{
newqueue.push(newhead->right);
}
}
}
/*--------------------------下面是 非递归算法--------------------------------*/
void firstScanNO(treepoint head)
{
stack<treepoint> newstack;
treepoint p = head;
while (p != nullptr || !newstack.empty())
{
while (p != nullptr)
{
newstack.push(p);
cout << setw(3) << p->data;
p = p->left;
}
if (!newstack.empty())
{
p = newstack.top();
newstack.pop();
p = p->right;
}
}
}
void secondScanNo(treepoint head)
{
treepoint p = head;
stack<treepoint> newstack;
while (!newstack.empty() || p != nullptr)
{
while (p!= nullptr)
{
newstack.push(p);
p = p->left;
}
if (!newstack.empty())
{
p = newstack.top();
newstack.pop();
cout << setw(3) << p->data;
p = p->right;
}
}
}
typedef struct treenodeplus
{
treepoint p;
bool VisitedFlag = false;
}treenodeplus,*treepointplus;
void thirdScanNo(treepoint head)
{
treepoint p = head;
stack<treepointplus> newstack;
while (p != nullptr || !newstack.empty())
{
while (p != nullptr)
{
treepointplus newplus = new treenodeplus{ p };
newstack.push(newplus);
p = p->left;
}
if (!newstack.empty())
{
treepointplus plus = newstack.top();
newstack.pop();
if (plus->VisitedFlag == false)
{
plus->VisitedFlag = true;
newstack.push(plus); //再把plus 塞回去
p = plus->p->right;
}
else
{
p = plus->p;
cout <<setw(3)<<p->data;
p = nullptr;
}
}
}
}
//上面借助辅助空间的方式浪费了大量的存储空间 并且还要考虑元素的后续释放
//当然元素释放爷没写
//下面这种是我新学会的写法
void thirdScanNo2(treepoint head)
{
treepoint p = head;
stack<treepoint> newstack;
treepoint pre=nullptr;
while (p != nullptr || !newstack.empty())
{
while (p != nullptr)
{
newstack.push(p);
p = p->left;
}
if (!newstack.empty())
{
p = newstack.top();
if (p->right && p->right != pre)
{
p = p->right;
}
else
{
newstack.pop();
cout << setw(3) << p->data;
pre = p;
p = nullptr;
}
}
}
}
int main()
{
treepoint newhead1;
newhead1 = println();
firstScan(newhead1);
cout << endl;
secondScan(newhead1);
cout << endl;
thirdScan(newhead1);
cout << endl;
forthScan(newhead1);
cout << endl;
firstScanNO(newhead1);
cout << endl;
secondScanNo(newhead1);
cout << endl;
thirdScanNo(newhead1);
cout << endl;
thirdScanNo2(newhead1);
cout << endl;
/*
所用二叉树为
A
B C
# D E F
G H I J # #
# # # # # # K L
## ##
*/
//输入内容为 AB#DG##H##CEI##JK##L##F##
//前序为ABDGHCEIJKLF
//中序为BGHDAIEKJLCF
//后序为GHDBIKLJEFCA
//层序为ABCDEFGHIJKL
}
#include<iostream>
#include<iomanip>
#include<string>
#include<fstream>
#include<cmath>
#include<vector>
#include<stack>
#include<cstdio>
#include<array>
#include<vector>
#include<map>
#include<queue>
using namespace std;
typedef struct treenode {
char data;
struct treenode* left;
struct treenode* right;
bool rtag=false;
bool ltag=false; //默认指向自己的左右孩子 如果被设置为1 才表示后继
}treenode,*treepoint;
typedef struct treenodePlus {
char data;
struct treenodePlus* left;
struct treenodePlus* right;
struct treenodePlus* parent;
bool ltag = false;
bool rtag = false; //默认指向自己的左右孩子 如果被设置为1 才表示后继
}treenodePlus,*treepointPlus;
//我争取能在两个小时内把这个东西写出来
treepoint Create_tree()
{
treepoint newpoint;
char data;
cin >> data;
if (data == '#')
{
return nullptr;
}
else
{
newpoint = new treenode{ data,NULL,NULL,0,0 };
newpoint->left = Create_tree();
newpoint->right = Create_tree();
}
return newpoint;
}
void diguiScan(treepoint head)
{
if (head)
{
cout <<setw(3)<<head->data;
diguiScan(head->left);
diguiScan(head->right);
}
}
void Create_first_core(treepoint head,treepoint& pre)
{
if (head != nullptr)
{
if (head->left == nullptr) //如果这个节点左孩子为空
{
head->left = pre;
head->ltag = 1;
}
if (pre && pre->right == nullptr)
{
pre->right = head;
pre->rtag = 1;
}
pre = head;
if (head->ltag == 0)
{
Create_first_core(head->left, pre);
}
if (head->rtag == 0)
{
Create_first_core(head->right, pre); //调用到这里的pre 已经和原来的pre不是一个内容了
}
}
}
treepoint Create_first_threadtree(treepoint head)
{
treepoint newhead = new treenode{ '#',nullptr,nullptr,0,1 };
if (head == nullptr)
{
newhead->left = newhead;
newhead->right = newhead;
return newhead;
}
else
{
newhead->left = head;
treepoint pre = newhead;
Create_first_core(head, pre);
pre->right = newhead;
pre->rtag = 1;
newhead->right = pre;
return newhead;
}
}
void first_thread_treeScan(treepoint head)
{
treepoint p = head->left;
while (p != head)
{
if (p)
{
cout << setw(3) << p->data;
if (p->ltag == 0)
{
p = p->left;
}
else
{
p = p->right;
}
}
}
}
void Create_second_core(treepoint head, treepoint& pre)
{
if (head)
{
Create_second_core(head->left, pre);
if (head->left == nullptr)
{
head->left = pre;
head->ltag = 1;
}
if (pre&& pre->right== nullptr)
{
pre->right = head;
pre->rtag = 1;
}
pre = head;
Create_second_core(head->right, pre);
}
}
treepoint Create_second_threadtree(treepoint head)
{
treepoint newhead = new treenode{ '#',nullptr,nullptr,0,1 };
if (head == nullptr)
{
newhead->left = newhead;
newhead->right = newhead;
return newhead;
}
else
{
newhead->left = head;
treepoint pre = head;
Create_second_core(head, pre);
pre->right = newhead;
pre->rtag = 1;
newhead->right = pre;
return newhead;
}
}
void second_thread_treeScan(treepoint head)
{
treepoint p = head->left;
while (p != head)
{
while (p->ltag == 0)
{
p = p->left;
}//直到p到最左侧
cout <<setw(3)<<p->data;
//输出这个值
//注意这里是while 不是if hxd
while (p->rtag == 1 && p->right != head)
{
p = p->right;
cout << setw(3) << p->data;
}
p = p->right;
}
}
treepointPlus Create_PlusTree(treepointPlus pointparent)
{
treepointPlus newhead;
char data;
cin >> data;
if (data == '#')
{
return nullptr;
}
else
{
newhead = new treenodePlus{ data,nullptr,nullptr,nullptr,0,0 };
newhead->parent = pointparent; //用来标记 父节点 妙啊妙啊
newhead->left = Create_PlusTree(newhead);
newhead->right = Create_PlusTree(newhead);
}
return newhead;
} //生成特殊类型二叉树
void Create_third_core(treepointPlus head, treepointPlus& pre)
{
if (head)
{
Create_third_core(head->left, pre);
Create_third_core(head->right, pre);
if (head->left == nullptr)
{
head->left = pre;
head->ltag = 1;
}
if (pre&&pre->right == nullptr)
{
pre->right = head;
pre->rtag = 1;
}
pre = head;
}
}
treepointPlus Create_third_threadtree(treepointPlus head)
{
treepointPlus newhead = new treenodePlus{ '#',nullptr,nullptr,nullptr,0,1 };
if (head == nullptr)
{
newhead->left = newhead->right = newhead;
return newhead;
}
else
{
newhead->left = head;
newhead->right = head;
head->parent = newhead;
treepointPlus pre = newhead;
Create_third_core(head, pre);
//这个指的是如果根节点没有右子树 因为最后一个pre必然是根节点
//如果根节点有右子树 下面的步骤不会执行
if (pre->right == nullptr)
{
pre->right = newhead;
pre->rtag = 1;
}
return newhead;
}
}
void third_thread_treeScan(treepointPlus head)
{
treepointPlus p = head->left;
treepointPlus pmemory = p;
treepointPlus pre = nullptr;
while (p != head)
{
while (p->ltag == 0 && p->left != pre) //防止再次进入左子树
{
p = p->left;
}//直接到最左侧节点
while (p->rtag == 1&&p!=head)//这个东西没有右子树 那我们直接访问它 并且访问它的后继
{//防止一路访问到根节点的父节点(标志节点) 如果访问到我们就推出即可
cout << setw(3) << p->data;
pre = p;
p = p->right;
}
//直到某一个节点 有右子树 (这是必然的 表示这个节点的整个右子树已经访问完毕 否则不会弹回到父节点)
while (p->right == pre && p != head) //表示这个非叶子节点不是根节点 此处输出
{
cout << setw(3) << p->data;
pre = p;
p = p->parent;
}
if (p->rtag == 0) //每次转到更高一级的根节点 pre的作用已经消失 不必修改pre的值
{
p = p->right;
}
}
}
int main()
{
treepointPlus tree =Create_PlusTree(nullptr);
//treepoint newtreefirst = Create_first_threadtree(tree);
//first_thread_treeScan(newtreefirst);
//treepoint newtreesecond = Create_second_threadtree(tree);
//second_thread_treeScan(newtreesecond);
treepointPlus newtreesecond = Create_third_threadtree(tree);
third_thread_treeScan(newtreesecond);
/*AB#DG##H###
所用二叉树为
A
B C
# D E F
G H I J # #
# # # # # # K L
## ##
*/
//输入内容为 AB#DG##H##CEI##JK##L##F##
//前序为ABDGHCEIJKLF
//中序为BGHDAIEKJLCF
//后序为GHDBIKLJEFCA
//层序为ABCDEFGHIJKL
//ABCD###E#F#G##H#IO###
//后续 D C G F E B O I H A
//AB#DG##H###
// G H D B A
//A#B#CD##E#F##
//D F E C B A
/*
*/
}
