本文实例讲述了java实现二叉树的建立、计算高度与递归输出操作。分享给大家供大家参考,具体如下:
1. 建立 递归输出 计算高度 前中后三种非递归输出
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public class tree_link {
private int save = 0;
private int now = 0;
scanner sc = new scanner(system.in);
/*
* 构造函数
*/
tree_link(){
}
/*
* 链表建立
*/
public tree link_build(tree head){
// tree head = new tree();//头节点
system.out.println("继续code:1");
int flag = sc.nextint();
if(flag != 1){
return head;
}else{
system.out.println("\n\n\n输入 节点信息:");
head.setcode(sc.nextint());
system.out.println("\n建立 左 子树code:1 否则:0");
flag = sc.nextint();
if(flag == 1){
now++;
tree ltree = new tree();
head.setltree(ltree);
ltree.setfronttree(head);//设置父母节点
link_build( head.getltree() );
}
system.out.println("\n当前位置:" + head.getcode());
system.out.println("\n建立 右 子树code:1 否则:0");
flag = sc.nextint();
if(flag == 1){
now++;
tree rtree = new tree();
head.setrtree(rtree);
rtree.setfronttree(head);//设置父母节点
link_build( head.getrtree() );
}
if( now > save ){
save = now;
}
now--;
}
return head;
}
/*
* 输出树
*/
public tree output(tree head){
int flag;
if(head.getcode() == -1){
return head;
}else{
system.out.println("\n当前位置:" + head.getcode());
system.out.println(head.getltree() != null);
if(head.getltree() != null){
system.out.println("\n访问 左子树:");
output( head.getltree() );
}
if(head.getrtree() != null){
system.out.println("\n访问 右子树:");
output( head.getrtree() );
}
}
return head;
}
/*
* 获得高度
*/
public int getsave(){
return this.save;
}
/*
* 非递归 前序遍历
*/
public void front_traverse(tree head){
tree star = head;//退出标记
int choose = 1; //左
int flag = 1; //右
system.out.println( "<---前序遍历--->" + head.getcode() );//先访问根
while(true){
if( head.getltree() != null && choose != 0 ){
head = head.getltree();
system.out.println( "<---前序遍历--->" + head.getcode() );//获得信息
flag = 1;
}else if( head.getrtree() != null && flag != 0 ){
head = head.getrtree();
system.out.println( "<---前序遍历--->" + head.getcode() );
choose = 1;
}else if( flag == 0 && choose == 0 && head == star){
break;
}else{
if(head == head.getfronttree().getrtree()){
flag = 0;
choose = 0;
}
if(head == head.getfronttree().getltree()){
choose = 0;
flag = 1;
}
head = head.getfronttree();
system.out.println("获得 父母" + head.getcode());
system.out.println( "\n\n\n" );
}
}
}
/*
* 非递归 中序遍历
*/
public void center_traverse(tree head){
tree star = head;//退出标记
int choose = 1; //左
int flag = 1; //右
while(true){
if( head.getltree() != null && choose != 0 ){
head = head.getltree();
flag = 1;
}else if( head.getrtree() != null && flag != 0 ){
if(head.getltree() == null){//因为左边为空而返回
system.out.println( "<-1--中序遍历--->" + head.getcode());
}
head = head.getrtree();
choose = 1;
}else if( flag == 0 && choose == 0 && head == star){
break;
}else{
int area = 0;//判断哪边回来
flag = 1;
choose = 1;
if(head == head.getfronttree().getrtree()){
area = 1;//右边回来
flag = 0;
choose = 0;
}
if(head == head.getfronttree().getltree()){
area = 2;//左边回来
choose = 0;
flag = 1;
}
if( head.getltree() == null && head.getrtree() == null ){//因为左边为空而返回
system.out.println( "<-2--中序遍历--->" + head.getcode());
}
head = head.getfronttree();
if( area == 2){//因为左边访问完返回
system.out.println( "<-3--中序遍历--->" + head.getcode());
}
system.out.println("获得 父母" + head.getcode());
system.out.println( "\n\n\n" );
}
}
}
/*
* 非递归 后续遍历
*/
public void bottom_traverse(tree head){
tree star = head;//退出标记
int choose = 1; //左
int flag = 1; //右
while(true){
if( head.getltree() != null && choose != 0 ){
head = head.getltree();
flag = 1;
}else if( head.getrtree() != null && flag != 0 ){
head = head.getrtree();
choose = 1;
}else if( flag == 0 && choose == 0 && head == star){
break;
}else{
int area = 0;//判断哪边回来
flag = 1;
choose = 1;
if(head == head.getfronttree().getrtree()){
area = 1;//右边回来
flag = 0;
choose = 0;
}
if(head == head.getfronttree().getltree()){
choose = 0;
flag = 1;
}
if(head.getrtree() == null){//因为右边为空而返回
system.out.println( "<-1--后序遍历--->" + head.getcode());
}
head = head.getfronttree();
if( area == 1){
system.out.println( "<-2--后序遍历--->" + head.getcode());
}
system.out.println("获得 父母" + head.getcode());
system.out.println( "\n\n\n" );
}
}
}
}
2. tree 类实现:
public class tree {
private int code = -1;
private tree fonttree;
private tree ltree;
private tree rtree;
tree(){
this.code = -1;
this.ltree = null;
this.rtree = null;
}
/*
* 树内容查看方法:
*/
public void setcode(int code){//设置编号
this.code = code;
}
public int getcode(){ //获取编号
return this.code;
}
/*
* 设置父母指针:
*/
public void setfronttree(tree front){
this.fonttree = front;
}
public tree getfronttree(){
system.out.println("获得 父母");
return this.fonttree;
}
/*
* 设置左子女:
*/
public void setltree(tree ltree){
this.ltree = ltree;
}
public tree getltree(){
system.out.println("获得左子树");
return this.ltree;
}
/*
* 设置右子女:
*/
public void setrtree(tree rtree){
this.rtree = rtree;
}
public tree getrtree(){
system.out.println("获得右子树");
return this.rtree;
}
}
3. 主函数测试:
public class mainactivity {
scanner sc = new scanner(system.in);
public static void main(string[] args) {
tree head = new tree();
tree_link link_1st = new tree_link();
head = link_1st.link_build(head);
system.out.println("build succeed !");
system.out.println("\n二叉树高度-->" + link_1st.getsave());
link_1st.output(head);
system.out.println("output over !");
system.out.println("\n\n<----------------前------------------>\n前序访问根:");
link_1st.front_traverse(head);
system.out.println("\n\n<----------------中------------------>\n中序访问根:");
link_1st.center_traverse(head);
system.out.println("\n\n<----------------后------------------>\n后序访问根:");
link_1st.bottom_traverse(head);
system.out.println("\n\n\n\ntext over !\n\n\n");
}
}
更多关于java算法相关内容感兴趣的读者可查看本站专题:《java数据结构与算法教程》、《java操作dom节点技巧总结》、《java文件与目录操作技巧汇总》和《java缓存操作技巧汇总》
希望本文所述对大家java程序设计有所帮助。
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