public class RBTree{
TreeNode root;
//建立红黑树
public void create(int[] list){
for(int i = 0; i < list.length; i++){
this.insert(list);
}
}
//插入一个元素
public void insert(int elem){//为新元素开辟一个空间
TreeNode s = new TreeNode();
s.data = elem;
s.color = "red";
s.lchild = null;
s.rchild = null;
//判断根是否为空,如果为空,则将root指向新元素.否则,进入循环
if(root == null){
root = s;
root.color = "black";
return ;
}else{
//定义四个指针,分别指向祖先,祖,父,自身
TreeNode p = root,q;
TreeNode parent = root;
TreeNode grand = root;
TreeNode ancestor = root;
while(p != null){
//如果P的左右孩子均不为空且颜色均为红色,则执行颜色转换并进行调整
if(p.lchild != null && p.rchild != null){
if(p.lchild.color==("red") && p.rchild.color==("red")){
convertColor(p);
adjust(ancestor,grand,parent,p);
}
}
if(elem == p.data){
return;
}
q = p; //指针依次向后移动
ancestor = grand;
grand = parent;
parent = p;
//如果,元素小于P
if(elem < q.data){ //P的左孩子为空
if(q.lchild == null){
//将P的左孩子指向新建元素
q.lchild = s;
p = s; //调整
adjust(ancestor,grand,parent,p);
return;
}else{//P的左孩子不为空
//P向左下移动
p = p.lchild;
}
} else{//如果,元素大于P
if(elem > q.data){ //P的右孩子为空
if(q.rchild == null){
//将P的右孩子指向新建元素
q.rchild = s;
p = s;//调整
adjust(ancestor,grand,parent,p);
return;
}else{//P的右孩子不为空
//P向右下移动
p = p.rchild;
}
}
}
}
}
}
//调整颜色的方法
public void convertColor(TreeNode p){
//将P的左右孩子的颜色均置为黑
p.lchild.color = "black";
p.rchild.color = "black";
//若P为根结点,则颜色仍为黑,否则颜色置为红
if(!(p.equals(root))){
p.color = "red";
return;
}
if(p.equals(root)){
p.color = "black";
}
}
public void adjust(TreeNode ancestor,TreeNode grand,TreeNode parent,TreeNode x){//是否存在红红冲突
if(!(parent.color == "red" && x.color == "red")){
return;
}
//符合一次调整的,将调用一次调整
if((grand.lchild == parent && parent.lchild == x) ||(grand.rchild == parent && parent.rchild == x )){
onceAdjust(ancestor,grand,parent,x);
return;
}
//符合二次调整的,将调用二次调整
if((grand.lchild == parent && parent.rchild == x ) || (grand.rchild == parent && parent.lchild == x )){
twiceAdjust(ancestor,grand,parent,x);
return;
}
}
private void onceAdjust(TreeNode ancestor,TreeNode grand,TreeNode parent,TreeNode x){ //调整父结点和祖结点的颜色
this.exchangeColor(grand);
this.exchangeColor(parent);
//将祖先结点指向父结点
if(ancestor == grand && ancestor == this.root ){
this.root = parent;
ancestor = parent;
}else{
if(ancestor.lchild == grand){
ancestor.lchild = parent;
}else if(ancestor.rchild == grand){
ancestor.rchild = parent;
}
}
//左左型调整
if(grand.lchild == parent && parent.lchild == x ){
grand.lchild = parent.rchild;
parent.rchild = grand;
return;
}
//右右型调整
if(grand.rchild == parent && parent.rchild == x ){
grand.rchild = parent.rchild;
parent.lchild = grand;
return;
}
}
private void twiceAdjust(TreeNode ancestor,TreeNode grand,TreeNode parent,TreeNode x){ //调整自身结点和祖结点的颜色
this.exchangeColor(grand);
this.exchangeColor(x);
//将祖先结点指向自身结点
if(ancestor == grand && ancestor == root){
root = x;
ancestor = x;
}else{
if(ancestor.lchild == grand){
ancestor.lchild = x;
}else if(ancestor.rchild == grand){
ancestor.rchild = x;
}else if(ancestor == root){
ancestor = x;
root = x;
}
}
//左右型调整
if(grand.lchild == parent && parent.rchild == x ){
grand.lchild = x.rchild;
parent.rchild = x.lchild;
x.lchild = parent;
x.rchild = grand;
return;
}
//右左型调整
if(grand.rchild == parent && parent.lchild == x){
grand.rchild = x.lchild;
parent.lchild = x.rchild;
x.lchild = grand;
x.rchild = parent;
return;
}
}
//变换颜色的方法
private void exchangeColor(TreeNode p){
if(p.color.equals("red")){
p.color = "black";
}else{
p.color = "red";
}
}
public void inorder(){
inorder(root);
}
//中序遍历
private void inorder(TreeNode root){
if(root != null){
inorder(root.lchild);
System.out.println(root.data+" "+root.color);
inorder(root.rchild);
}
}
}
class TreeNode{
public int data;
public String color;
public TreeNode lchild;
public TreeNode rchild;
}
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