树的层次遍历【队列的应用】
思想:将不空的根节点入队列,队列不空的时候出队列,访问该节点,然后分别将左右孩子入队列,正好先出左,再出右,跟队列契合。
java实现代码;
package com.mytest.mymain;
import java.util.LinkedList;
import java.util.Queue;
import java.util.Stack;
class BTree{
public int value; //public static int value; 那么最终输出都为8个8
public BTree left;
public BTree right;
BTree(int x) { value = x; }
}
public class TraversalTree {
public static void main(String[] args) {
BTree root=new BTree(1);
BTree Node2=new BTree(2);
BTree Node3=new BTree(3);
BTree Node4=new BTree(4);
BTree Node5=new BTree(5);
BTree Node6=new BTree(6);
BTree Node7=new BTree(7);
BTree Node8=new BTree(8);
root.left=Node2;
root.right=Node3;
Node2.left=Node4;
Node2.right=Node5;
Node3.left=Node6;
Node3.right=Node7;
Node4.left=Node8;
System.out.println("层次遍历");
levelorder(root);
}
//层次遍历
public static void levelorder(BTree root){
Queue<BTree> queue=new LinkedList<BTree>();
BTree bTree=null;
if(root != null){
queue.add(root);
}
while(!queue.isEmpty()){
bTree=queue.poll();
System.out.print(bTree.value+" ");
if(bTree.left != null){
queue.add(bTree.left);
}
if(bTree.right !=null ){
queue.add(bTree.right);
}
}
}
}