这里使用下图的二叉树作为例子:
首先建立树这个类:
public class Node {
private int data;
private Node leftNode;
private Node rightNode;
public Node(int data, Node leftNode, Node rightNode) {
this.data = data;
this.leftNode = leftNode;
this.rightNode = rightNode;
}
public int getData() {
return data;
}
public void setData(int data) {
this.data = data;
}
public Node getLeftNode() {
return leftNode;
}
public void setLeftNode(Node leftNode) {
this.leftNode = leftNode;
}
public Node getRightNode() {
return rightNode;
}
public void setRightNode(Node rightNode) {
this.rightNode = rightNode;
}
}
使用递归的方式遍历二叉树,这种遍历虽然比较简单,但涉及到递归的算法都尽量慎用!
//递归遍历二叉树
public class RecursionBinaryTree { //先建立子节点,再建立父节点
public Node init(){
Node E = new Node(8,null,null);
Node C = new Node(6,E,null);
Node D = new Node(3,null,null);
Node B = new Node(2,D,null);
Node A = new Node(7, B, C);
return A; //返回根节点
} public void printNode(Node node){
System.out.print(node.getData());
}
//先序遍历:根左右的顺序遍历二叉树
public void firstTraversal(Node root){
printNode(root); //输出根节点数据
if(root.getLeftNode()!=null){
firstTraversal(root.getLeftNode());
}
if(root.getRightNode()!=null){
firstTraversal(root.getRightNode());
}
}
//中序遍历:左根右
public void inOrderTraversal(Node root){
if(root.getLeftNode()!=null){
inOrderTraversal(root.getLeftNode());
}
printNode(root);
if(root.getRightNode()!=null){
inOrderTraversal(root.getRightNode());
}
} //后序遍历:左右根
public void postOrderTraversal(Node root){
if(root.getLeftNode()!=null){
postOrderTraversal(root.getLeftNode());
}
if(root.getRightNode()!=null){
postOrderTraversal(root.getRightNode());
}
printNode(root);
} public static void main(String[] args) {
RecursionBinaryTree tree = new RecursionBinaryTree();
Node root = tree.init();
System.out.println("先序遍历:");
tree.firstTraversal(root);
System.out.println();
System.out.println("中序遍历:");
tree.inOrderTraversal(root);
System.out.println();
System.out.println("后序遍历:");
tree.postOrderTraversal(root);
}
}
再看看使用非递归的方式遍历二叉树,面试的时候会经常问到使用非递归的方式实现二叉树的中序遍历。
//堆栈遍历二叉树
public class StackBinaryTree { public Node init(){
Node E = new Node(8,null,null);
Node C = new Node(6,E,null);
Node D = new Node(3,null,null);
Node B = new Node(2,D,null);
Node A = new Node(5, B, C);
return A; //返回根节点
} public void printNode(Node node){
System.out.print(node.getData());
}
//先序遍历:根左右
public void firstTraversal(Node root){
Stack<Node> stack = new Stack<>(); //定义一个栈
while (root!=null||stack.size()>0){ //判断节点是否为空或者栈中是否为空,当均为空时,结束循环
if(root!=null){
printNode(root);
stack.push(root);
root = root.getLeftNode();
}else {
root = stack.pop();
root = root.getRightNode();
}
}
} //中序遍历:左根右
public void inOrderTraversal(Node root){
Stack<Node> stack = new Stack<>(); //定义一个栈
while (root!=null||stack.size()>0){
if(root!=null){
stack.push(root); //直接压入栈
root = root.getLeftNode();
}else {
root = stack.pop(); //出栈时输出下
printNode(root);
root = root.getRightNode();
}
}
} public void postOrderTraversal(Node root){
Stack<Node> stack = new Stack<>();
Stack<Node> output = new Stack<>();//构造一个中间栈存储后序遍历的结果
while (root!=null||stack.size()>0){
if(root!=null){
output.push(root);
stack.push(root);
root = root.getRightNode();
}else {
root = stack.pop();
root = root.getLeftNode();
}
}
while (output.size()>0){
printNode(output.pop());
}
} public static void main(String[] args) {
StackBinaryTree tree = new StackBinaryTree();
Node root = tree.init();
System.out.println("先序遍历:");
tree.firstTraversal(root);
System.out.println("中序遍历:");
tree.inOrderTraversal(root);
System.out.println("后序遍历:");
tree.postOrderTraversal(root);
}
}