二叉树完整操作集(源代码)
背景
我在做单片机项目时,遇到了一个很担心的隐患:单片机在用异步串口传输数据的时候,底层直接传输比特流,但是经过多次测试存在一个问题:控制代码、GPIO和数***算实在是太费时间了,很有可能导致数据传输不稳定,传输过程抖动,频繁建立握手连接,最终导致信息传递不及时,控制动作无法按时到达导致直接挂机。为了解决潜在的隐患,避免实际成品挂掉,必须压缩传输的数据编码。
编码算法?解码算法呢?怎么办?苦思冥想不得其解。查阅相关资料,发现Huffman树好像可以解决此问题,但是需要先修二叉树,三天时间自学了一下二叉树,记录一下学习过程写下的操作集合。
结构
class BiTNode
{
public:
int data = -1;
BiTNode *left, *right;
public:
explicit BiTNode(int x = -1);
void Visit();
void PreOrderTraverse();
void PreOrderTraverse2();
void InOrderTraverse();
void InOrderTraverse2();
void PostOrderTraverse();
void PostOrderTraverse2();
void LevelTraverse();
unsigned int Level();
void InvertLevelTraverse();
unsigned int Level2();
BiTNode *PreInCreate(int Pre[], int In[], unsigned int first1, unsigned int last1, unsigned int first2, unsigned int last2);
bool IsCBT();
unsigned int DoubleWSonNodes();
void SwapSons();
void KthPreNode(unsigned int k);
void DeleteXTree(int X);
void PrintParentsOfX(int x);
BiTNode *NearestCommonAcenstor(BiTNode *node1, BiTNode *node2);
unsigned int GetWidth();
BiTNode *LevelToPost(int Pre[], unsigned int node, unsigned int left, unsigned int right, unsigned int PreLen);
void PreToPost(int Pre[], unsigned int first1, unsigned int last1, int Post[], unsigned int first2, unsigned int last2);
void TraverseLeafNodes();
bool IsSimilar(BiTNode *T);
unsigned int GetWPL();
/**************BSTree**************/
BiTNode* BST_Search(int key);
bool IsInBST(int key);
static BiTNode* Delete(BiTNode* &T, int key);
private:
static void KillTree(BiTNode *&T);
/**************BSTree**************/
BiTNode* FindMin();
BiTNode* FindMax();
};
源代码
直接可以运行
#include <iostream>
#include <stack>
#include <queue>
using namespace std;
class BiTNode
{
public:
int data = -1;
BiTNode *left, *right;
public:
explicit BiTNode(int x = -1);
void Visit();
void PreOrderTraverse();
void PreOrderTraverse2();
void InOrderTraverse();
void InOrderTraverse2();
void PostOrderTraverse();
void PostOrderTraverse2();
void LevelTraverse();
unsigned int Level();
void InvertLevelTraverse();
unsigned int Level2();
BiTNode *PreInCreate(int Pre[], int In[], unsigned int first1, unsigned int last1, unsigned int first2, unsigned int last2);
bool IsCBT(); //是否为完全二叉树
unsigned int DoubleWSonNodes();
void SwapSons();
void KthPreNode(unsigned int k);
void DeleteXTree(int X);
void PrintParentsOfX(int x);
BiTNode *NearestCommonAcenstor(BiTNode *node1, BiTNode *node2);
unsigned int GetWidth();
BiTNode *LevelToPost(int Pre[], unsigned int node, unsigned int left, unsigned int right, unsigned int PreLen);
void PreToPost(int Pre[], unsigned int first1, unsigned int last1, int Post[], unsigned int first2, unsigned int last2);
void TraverseLeafNodes();
bool IsSimilar(BiTNode *T);
unsigned int GetWPL();
/**************BSTree**************/
BiTNode* BST_Search(int key);
bool IsInBST(int key);
static BiTNode* Delete(BiTNode* &T, int key);
private:
static void KillTree(BiTNode *&T);
/**************BSTree**************/
BiTNode* FindMin();
BiTNode* FindMax();
};
BiTNode::BiTNode(int x)
{
this->data = x;
this->left = this->right = nullptr;
}
void BiTNode::KillTree(BiTNode *&T)
{
if (T)
{
KillTree(T->left);
KillTree(T->right);
cout << ' ' << T->data;
free(T);
T = nullptr;
}
}
void CreateTree(BiTNode *&T)
{
int num;
cin >> num;
if (!num)
T = nullptr;
else
{
T = new BiTNode(num);
CreateTree(T->left);
CreateTree(T->right);
}
}
void BiTNode::Visit()
{
if (this)
{
cout << ' ' << this->data;
}
}
void BiTNode::PreOrderTraverse()
{
if (this)
{
cout << this->data << ' ';
this->left->PreOrderTraverse();
this->right->PreOrderTraverse();
}
}
void BiTNode::PreOrderTraverse2()
{
if (!this)
{
cout << "Empty Tree";
return;
}
stack<BiTNode *> s;
s.push(this);
while (!s.empty())
{
BiTNode *tmp = s.top();
s.pop();
tmp->Visit();
if (tmp->right)
{
s.push(tmp->right);
}
if (tmp->left)
{
s.push(tmp->left);
}
}
}
void BiTNode::InOrderTraverse()
{
if (this)
{
this->left->InOrderTraverse();
this->Visit();
this->right->InOrderTraverse();
}
}
void BiTNode::InOrderTraverse2()
{
if (!this)
{
cout << "Empty Tree";
return;
}
auto p = this;
stack<BiTNode *> s;
while (!s.empty() || p)
{
while (p)
{
s.push(p);
p = p->left;
}
if (!s.empty())
{
p = s.top();
s.pop();
p->Visit();
p = p->right;
}
}
}
void BiTNode::PostOrderTraverse()
{
if (this)
{
this->left->PostOrderTraverse();
this->right->PostOrderTraverse();
this->Visit();
}
}
void BiTNode::PostOrderTraverse2()
{
if (!this)
{
cout << "Empty Tree";
return;
}
stack<BiTNode *> s1, s2;
s1.push(this);
while (!s1.empty())
{
auto p = s1.top();
s1.pop();
if (p)
{
s2.push(p);
s1.push(p->left);
s1.push(p->right);
}
}
while (!s2.empty())
{
s2.top()->Visit();
s2.pop();
}
}
void BiTNode::LevelTraverse()
{
if (!this)
{
cout << "Empty Tree" << endl;
return;
}
queue<BiTNode *> queue;
queue.push(this);
while (!queue.empty())
{
auto tmp = queue.front();
tmp->Visit();
if (tmp->left)
queue.push(tmp->left);
if (tmp->right)
queue.push(tmp->right);
queue.pop();
}
}
unsigned int BiTNode::Level()
{
if (!this)
return 0;
else
{
return 1 + (this->left->Level() > this->right->Level() ? this->left->Level() : this->right->Level());
}
}
void BiTNode::InvertLevelTraverse()
{
if (!this)
{
cout << "Empty Tree" << endl;
return;
}
auto p = this;
queue<BiTNode *> queue;
stack<BiTNode *> s;
queue.push(p);
while (!queue.empty())
{
auto tmp = queue.front();
//tmp->Visit();
s.push(tmp);
if (tmp->left)
queue.push(tmp->left);
if (tmp->right)
queue.push(tmp->right);
queue.pop();
}
while (!s.empty())
{
auto q = s.top();
q->Visit();
s.pop();
}
}
unsigned int BiTNode::Level2()
{
if (!this)
{
return 0;
}
unsigned int level = 0;
queue<BiTNode *> Elsa;
Elsa.push(this);
auto Anna = Elsa.front();
while (!Elsa.empty())
{
auto p = Elsa.front();
Elsa.pop();
if (p->left)
Elsa.push(p->left);
if (p->right)
Elsa.push(p->right);
if (p == Anna)
{
level++;
Anna = Elsa.back();
}
}
return level;
}
BiTNode *BiTNode::PreInCreate(int Pre[], int In[], unsigned int first1, unsigned int last1, unsigned int first2, unsigned int last2)
{
BiTNode *root = new BiTNode;
root->data = Pre[first1];
unsigned int i;
for (i = first2; In[i] != root->data; i++)
;
auto LeftTreeLen = i - first2;
auto RightTreeLen = last2 - i;
if (LeftTreeLen)
{
root->left = PreInCreate(Pre, In, first1 + 1, first1 + LeftTreeLen, first2, first2 + LeftTreeLen - 1);
}
else
{
root->left = nullptr;
}
if (RightTreeLen)
{
root->right = PreInCreate(Pre, In, last1 - RightTreeLen + 1, last1, last2 - RightTreeLen + 1, last2);
}
else
{
root->right = nullptr;
}
return root;
}
bool BiTNode::IsCBT()
{
//空树也视作CBT
if (!this)
return true;
queue<BiTNode *> que;
que.push(this);
while (!que.empty())
{
auto p = que.front();
que.pop();
if (p)
{
que.push(p->left);
que.push(p->right);
}
else
{
while (!que.empty())
{
auto s = que.front();
que.pop();
if (s)
return false;
}
}
}
return true;
}
unsigned int BiTNode::DoubleWSonNodes()
{
unsigned int count = 0;
if (!this)
{
return 0;
}
else
{
queue<BiTNode *> que;
que.push(this);
while (!que.empty())
{
auto p = que.front();
que.pop();
if (p->left && p->right)
count++;
if (p->left)
que.push(p->left);
if (p->right)
que.push(p->right);
}
}
return count;
}
void BiTNode::SwapSons()
{
if (!this)
return;
else
{
queue<BiTNode *> que;
queue<BiTNode *> tmp;
que.push(this);
while (!que.empty())
{
auto p = que.front();
que.pop();
if (p->left)
que.push(p->left);
if (p->right)
que.push(p->right);
tmp.push(p);
}
while (!tmp.empty())
{
auto q = tmp.front();
tmp.pop();
swap(q->left, q->right);
}
}
return;
}
void BiTNode::KthPreNode(unsigned int k)
{
if (!this)
{
cout << "Error! An empty tree!" << endl;
return;
}
else
{
if (k == 0)
{
cout << "Wrong k" << endl;
}
stack<BiTNode *> s;
stack<BiTNode *> sln;
s.push(this);
while (!s.empty())
{
auto p = s.top();
s.pop();
sln.push(p);
if (p->right)
{
s.push(p->right);
}
if (p->left)
{
s.push(p->left);
}
}
auto size = sln.size();
if (k > size)
{
cout << "k is out of range!" << endl;
return;
}
else
{
while (size > k)
{
sln.pop();
size--;
}
cout << sln.top()->data << endl;
}
}
}
void BiTNode::DeleteXTree(int X)
{
if (!this)
return;
else
{
queue<BiTNode *> que;
queue<BiTNode *> KillList;
que.push(this);
while (!que.empty())
{
auto tmp = que.front();
que.pop();
if (tmp->left)
que.push(tmp->left);
if (tmp->right)
que.push(tmp->right);
if (tmp->data == X)
KillList.push(tmp);
}
if (KillList.empty())
{
cout << "No node's value is equal to " << X << endl;
return;
}
while (!KillList.empty())
{
BiTNode *Killee = KillList.front();
KillList.pop();
KillTree(Killee);
}
cout << " has been killed" << endl;
}
return;
}
void BiTNode::PrintParentsOfX(int x)
{
auto p = this;
BiTNode *r = nullptr;
stack<BiTNode *> s;
bool flag = false;
while (p || !s.empty())
{
if (p)
{
s.push(p);
p = p->left;
}
else
{
p = s.top();
if (p->right && p->right != r)
{
p = p->right;
}
else
{
s.pop();
if (p->data == x)
{
flag = true;
break;
}
r = p;
p = nullptr;
}
}
}
if (flag)
{
while (!s.empty())
{
s.top()->Visit();
s.pop();
}
}
else
{
cout << x << " is not in this tree";
}
}
BiTNode *BiTNode::NearestCommonAcenstor(BiTNode *node1, BiTNode *node2)
{
if (!this || !node1 || !node2)
{
return nullptr;
}
else
{
queue<BiTNode *> q1, q2;
auto p1 = this;
auto p2 = this;
BiTNode *r1 = nullptr;
BiTNode *r2 = nullptr;
stack<BiTNode *> s1, s2;
bool flag1 = 0;
bool flag2 = 0;
while (p1 || !s1.empty())
{
if (p1)
{
s1.push(p1);
p1 = p1->left;
}
else
{
p1 = s1.top();
if (p1->right && p1->right != r1)
{
p1 = p1->right;
}
else
{
s1.pop();
if (p1 == node1)
{
flag1 = 1;
break;
}
r1 = p1;
p1 = nullptr;
}
}
}
while (p2 || !s2.empty())
{
if (p2)
{
s2.push(p2);
p2 = p2->left;
}
else
{
p2 = s2.top();
if (p2->right && p2->right != r2)
{
p2 = p2->right;
}
else
{
s2.pop();
if (p2 == node2)
{
flag2 = 1;
break;
}
r2 = p2;
p2 = nullptr;
}
}
}
if (flag1 && flag2)
{
vector<BiTNode *> vec1, vec2;
while (!s1.empty())
{
vec1.push_back(s1.top());
s1.pop();
}
while (!s2.empty())
{
vec2.push_back(s2.top());
s2.pop();
}
for (unsigned int k1 = 0; k1 < vec1.size(); k1++)
{
for (unsigned int k2 = 0; k2 < vec2.size(); k2++)
{
if (vec1[k1] == vec2[k2])
{
return vec1[k1];
}
}
}
cout << node1->data << " and " << node2->data << " don't have any common Ancestor " << endl;
}
}
return nullptr;
}
unsigned int BiTNode::GetWidth()
{
if (!this)
return 0;
unsigned int Width = 0;
queue<BiTNode *> que;
que.push(this);
auto Anna = que.front();
while (!que.empty())
{
auto tmp = que.front();
que.pop();
if (tmp->left)
{
que.push(tmp->left);
}
if (tmp->right)
{
que.push(tmp->right);
}
if (Anna == tmp)
{
if (que.size() > Width)
{
Width = que.size();
}
Anna = que.back();
}
}
return Width;
}
BiTNode *BiTNode::LevelToPost(int Pre[], unsigned int node, unsigned int left, unsigned int right, unsigned int PreLen)
{
BiTNode *root = new BiTNode(Pre[node]);
unsigned int LeftTreeAncestor = 2 * node;
unsigned int RightTreeAncestor = 2 * node + 1;
if (LeftTreeAncestor <= PreLen)
{
root->left = LevelToPost(Pre, LeftTreeAncestor, LeftTreeAncestor * 2, LeftTreeAncestor * 2 + 1, PreLen);
}
if (RightTreeAncestor <= PreLen)
{
root->right = LevelToPost(Pre, RightTreeAncestor, RightTreeAncestor * 2, RightTreeAncestor + 1, PreLen);
}
return root;
}
void BiTNode::PreToPost(int Pre[], unsigned int first1, unsigned int last1, int Post[], unsigned int first2, unsigned int last2)
{
unsigned int half;
if (last1 >= first1)
{
Post[last2] = Pre[first1];
half = (last1 - first1) / 2;
PreToPost(Pre, first1 + 1, first1 + half, Post, first2, first2 + half - 1);
PreToPost(Pre, first1 + half + 1, last1, Post, first2 + half, last2 - 1);
}
}
void BiTNode::TraverseLeafNodes()
{
if (this->data == -1)
{
cout << "No leaf nodes" << endl;
return;
}
else if (this->data != -1 && !this->left && !this->right)
{
this->Visit();
}
else{
queue<BiTNode *> que;
que.push(this);
while(!que.empty()){
auto p = que.front();
que.pop();
if(p->left){
que.push(p->left);
}
if(p->right){
que.push(p->right);
}
if(!p->left && !p->right){
p->Visit();
}
}
}
return;
}
bool BiTNode::IsSimilar(BiTNode *T){
bool flag;
if(!this && !T){
return true;
}
else if(!this || !T){
return false;
}
else{
return this->left->IsSimilar(T->left) && this->right->IsSimilar(T->right);
}
}
unsigned int BiTNode::GetWPL() {
unsigned int WPL = 0;
if(!this){
return 0;
}
else if(!this->left && !this->right){
return this->data;
}
else{
auto p = this;
BiTNode *r = nullptr;
stack<BiTNode*> s;
while(!s.empty() || p){
if(p){
s.push(p);
p = p->left;
}
else{
p = s.top();
if(p->right && p->right != r){
p = p->right;
}
else{
s.pop();
if(!p->left && !p->right){
stack<BiTNode*> TmpSln = s;
WPL += p->data;
while(!TmpSln.empty()){
WPL += (TmpSln.top()->data);
TmpSln.pop();
}
}
r = p;
p = nullptr;
}
}
}
}
return WPL;
}
/**************ThreadTree**************/
class ThreadNode: virtual public BiTNode
{
public:
//int data;
ThreadNode *left, *right;
bool ltag = 0, rtag = 0;
public:
void CreateInThread();
void InOrder();
static void CreateTree(ThreadNode* &T);
private:
explicit ThreadNode(int x = -1);
void InThread(ThreadNode* &pre){
if(this){
this->left->InThread(pre);
if(!this->left){
this->left = pre;
this->ltag = 1;
}
if(pre && !pre->right){
pre->right = this;
pre->rtag = 1;
}
pre = this;
this->right->InThread(pre);
}
}
ThreadNode* FirstNode(){
auto p = this;
while(p->ltag == 0){
p = p->left;
}
return p;
}
ThreadNode* NextNdoe(){
auto p = this;
if(p->rtag == 0){
return p->right->FirstNode();
}
else{
return p->right;
}
}
};
ThreadNode::ThreadNode(int x){
this->left = this->right = nullptr;
this->data = x;
}
void ThreadNode::CreateInThread(){
ThreadNode *pre = nullptr;
if(this){
this->InThread(pre);
pre->right = nullptr;
pre->rtag = 1;
}
}
void ThreadNode::InOrder(){
for(auto p = this->FirstNode(); p; p = p->NextNdoe())
p->Visit();
}
void ThreadNode::CreateTree(ThreadNode *&T) {
int num;
cin >> num;
if (!num){
T = nullptr;
}
else{
T = new ThreadNode;
T->data = num;
CreateTree(T->left);
CreateTree(T->right);
}
}
/**************BSTree**************/
bool BST_Insert(BiTNode* &T, int key){
if(!T){
T = new BiTNode(key);
return true;
}
else{
if(T->data > key){
return BST_Insert(T->left, key);
}
else if(T->data < key){
return BST_Insert(T->right, key);
}
else{
return false;
}
}
}
BiTNode* Create_BST_From_Arr(BiTNode* &T, int Arr[], unsigned int ArrLen){
T = nullptr;
for(unsigned int i = 0; i < ArrLen; i++){
BST_Insert(T, Arr[i]);
}
}
BiTNode* BiTNode::BST_Search(int key){
if(!this || key == this->data){
return this;
}
else if(key < this->data){
return this->left->BST_Search(key);
}
else{
return this->right->BST_Search(key);
}
}
bool BiTNode::IsInBST(int key){
return this->BST_Search(key) != nullptr;
}
BiTNode* BiTNode::Delete(BiTNode* &T, int key){
auto del = T->BST_Search(key);
if(!del){
cout << key << " is not in this BST" << endl;
}
else if(key < T->data){
T->left = Delete(T->left, key);
}
else if(key > T->data){
T->right = Delete(T->right, key);
}
else{
BiTNode* tmp;
if(T->left && T->right){
tmp = T->right->FindMin();
T->data = tmp->data;
T->right = Delete(T->right, tmp->data);
}
else{
if(!T->left)
T = T->right;
else if(!T->right)
T = T->left;
else{
}
}
}
}
BiTNode* BiTNode::FindMax() {
if(!this || (!this->left && !this->right && this)){
return this;
}
else{
auto tmp = this;
while(tmp->right){
tmp = tmp->right;
}
return tmp;
}
}
BiTNode* BiTNode::FindMin() {
if(!this || (!this->left && !this->right && this)){
return this;
}
else{
auto tmp = this;
while(tmp->left){
tmp = tmp->left;
}
return tmp;
}
}
int main()
{
BiTNode *T;
CreateTree(T);
/**************PreOrderTraverse**************/
cout << "PreOrderTraverse: ";
T->PreOrderTraverse();
cout << endl;
/**************PreOrderTraverse2**************/
cout << "PreOrderTraverse2: ";
T->PreOrderTraverse2();
cout << endl;
/**************InOrderTraverse**************/
cout << "InOrderTraverse: ";
T->InOrderTraverse();
cout << endl;
/**************InOrderTraverse2**************/
cout << "InOrderTraverse2: ";
T->InOrderTraverse2();
cout << endl;
/**************PostOrderTraverse**************/
cout << "PostOrderTraverse: ";
T->PostOrderTraverse();
cout << endl;
/**************PostOrderTraverse2**************/
cout << "PostOrderTraverse2: ";
T->PostOrderTraverse2();
cout << endl;
/**************LevelTraverse**************/
cout << "LevelTraverse: ";
T->LevelTraverse();
cout << endl;
/**************Level**************/
cout << "Level: " << T->Level() << endl;
/**************InvertLevelTraverse**************/
cout << "InvertLevelTraverse: ";
T->InvertLevelTraverse();
cout << endl;
/**************Level2**************/
cout << "Level2: " << T->Level2() << endl;
/**************IsCBT**************/
cout << "IsCBT: " << (T->IsCBT() ? "yeah" : "nope") << endl;
/**************DoubleWSonNodes**************/
cout << "DoubleWSonNodes: " << T->DoubleWSonNodes() << endl;
/**************SwapSons**************/
cout << "SwapSons: ";
T->SwapSons();
T->LevelTraverse();
cout << endl;
T->SwapSons();
/**************KthPreNode**************/
unsigned int k;
cout << "KthPreNode: ";
cin >> k;
T->KthPreNode(k);
/**************DeleteXTree**************/
/* int Killee; cout << "DeleteXTree: "; cin >> Killee; T->DeleteXTree(Killee); */
/**************PrintParentsOfX**************/
cout << "PrintParentsOf_X: ";
int n;
cin >> n;
T->PrintParentsOfX(n);
cout << endl;
/**************NearestCommonAcenstor**************/
cout << "NearestCommonAcenstor: ";
//T->NearestCommonAcenstor(T->left->left->left->left, T->left->left->right->right)->Visit();
T->NearestCommonAcenstor(T->right, T->right->left)->Visit();
cout << endl;
/**************PreInCreate**************/
int Pre[32] = {
-1, 1, 2, 4, 8, 16, 17, 9, 18, 19, 5, 10, 20, 21, 11, 22, 23, 3, 6, 12, 24, 25, 13, 26, 27, 7, 14, 28, 29, 15, 30, 31};
int In[32] = {
-1, 16, 8, 17, 4, 18, 9, 19, 2, 20, 10, 21, 5, 22, 11, 23, 1, 24, 12, 25, 6, 26, 13, 27, 3, 28, 14, 29, 7, 30, 15, 31};
BiTNode *T1 = new BiTNode;
T1 = T1->PreInCreate(Pre, In, 1, 31, 1, 31);
cout << "PreInCreate: ";
T1->LevelTraverse();
cout << endl;
cout << "DeleteXTree:";
T1->DeleteXTree(1); //这里,根节点已经被删掉了,不要再删除了
//delete T1;
//T1 = nullptr;
/**************GetWidth**************/
cout << "GetWidth: ";
cout << T->GetWidth() << endl;
/**************LevelToPost**************/
cout << "LevelToPost: ";
int Level[8] = {
-1, 1, 2, 3, 4, 5, 6, 7};
BiTNode *T2 = new BiTNode;
T2 = T2->LevelToPost(Level, 1, 1, 7, 7);
T2->LevelTraverse();
cout << "\nKill T2:";
T2->DeleteXTree(1);
/**************PreToPost**************/
cout << "PreToPost: ";
int Post[32];
Post[0] = -1;
BiTNode *T3 = new BiTNode;
T3->PreToPost(Pre, 1, 31, Post, 1, 31);
//T3->DeleteXTree(1);
for (auto i = 1; i <= 31; i++)
cout << ' ' << Post[i];
cout << endl;
/**************TraverseLeafNodes**************/
cout << "TraverseLeafNodes: ";
T->TraverseLeafNodes();
cout << endl;
/**************GetWPL**************/
cout << "GetWPL: " << T->GetWPL() << endl;
/**************ThreadTree**************/
cout << "ThreadTree: " << endl;
cout << "Initializer: ";
ThreadNode *ThreadT;
ThreadT->CreateTree(ThreadT);
ThreadT->CreateInThread();
cout << "InOrderTraverse: ";
ThreadT->InOrder();
cout << "PostOrderTraverse2: ";
ThreadT->PostOrderTraverse2();
return 0;
}
测试数据和输出
/* 1 2 3 4 5 6 0 0 0 0 0 0 7 8 10 0 11 12 14 0 0 15 0 0 13 16 0 17 0 0 0 0 9 0 0 1 2 4 8 16 0 0 17 0 35 0 0 9 18 0 0 19 0 0 5 10 20 0 0 21 0 0 11 22 0 0 23 0 0 3 6 12 24 0 0 25 0 0 13 26 0 0 27 0 0 7 14 28 0 0 29 0 0 15 30 0 0 31 0 0 1 2 4 0 0 5 0 0 3 6 0 0 7 0 0 1 0 2 3 0 4 5 0 0 0 0//交错的链表 */
/* 1 2 4 8 16 0 0 17 0 0 9 18 0 0 19 0 0 5 10 20 0 0 21 0 0 11 22 0 0 23 0 0 3 6 12 24 0 0 25 0 0 13 26 0 0 27 0 0 7 14 28 0 0 29 0 0 15 30 0 0 31 0 0 PreOrderTraverse: 1 2 4 8 16 17 9 18 19 5 10 20 21 11 22 23 3 6 12 24 25 13 26 27 7 14 28 29 15 30 31 PreOrderTraverse2: 1 2 4 8 16 17 9 18 19 5 10 20 21 11 22 23 3 6 12 24 25 13 26 27 7 14 28 29 15 30 31 InOrderTraverse: 16 8 17 4 18 9 19 2 20 10 21 5 22 11 23 1 24 12 25 6 26 13 27 3 28 14 29 7 30 15 31 InOrderTraverse2: 16 8 17 4 18 9 19 2 20 10 21 5 22 11 23 1 24 12 25 6 26 13 27 3 28 14 29 7 30 15 31 PostOrderTraverse: 16 17 8 18 19 9 4 20 21 10 22 23 11 5 2 24 25 12 26 27 13 6 28 29 14 30 31 15 7 3 1 PostOrderTraverse2: 16 17 8 18 19 9 4 20 21 10 22 23 11 5 2 24 25 12 26 27 13 6 28 29 14 30 31 15 7 3 1 LevelTraverse: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Level: 5 InvertLevelTraverse: 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 Level2: 5 IsCBT: yeah DoubleWSonNodes: 15 SwapSons: 1 3 2 7 6 5 4 15 14 13 12 11 10 9 8 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 KthPreNode: 31 31 PrintParentsOf_X: 21 10 5 2 1 NearestCommonAcenstor: 1 PreInCreate: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 DeleteXTree: 16 17 8 18 19 9 4 20 21 10 22 23 11 5 2 24 25 12 26 27 13 6 28 29 14 30 31 15 7 3 1 has been killed GetWidth: 16 LevelToPost: 1 2 3 4 5 6 7 Kill T2: 4 5 2 6 7 3 1 has been killed PreToPost: 16 17 8 18 19 9 4 20 21 10 22 23 11 5 2 24 25 12 26 27 13 6 28 29 14 30 31 15 7 3 1 TraverseLeafNodes: 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 GetWPL: 704 ThreadTree: Initializer: 1 2 4 8 16 0 0 17 0 0 9 18 0 0 19 0 0 5 10 20 0 0 21 0 0 11 22 0 0 23 0 0 3 6 12 24 0 0 25 0 0 13 26 0 0 27 0 0 7 14 28 0 0 29 0 0 15 30 0 0 31 0 0 InOrderTraverseThreadTree: 16 8 17 4 18 9 19 2 20 10 21 5 22 11 23 1 24 12 25 6 26 13 27 3 28 14 29 7 30 15 31 */
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