本文详细介绍了二叉树的遍历方法,包括先序、中序和后序遍历的递归与非递归实现,并提供了完整的Java代码示例。
前序:中左右;中序:左根右;后序:左右中
递归求解和非递归求解(利用到树的广度优先搜索和深度优先搜索)
import java.util.Stack;
/**
* 实现二叉树的先序、 中序、 后序遍历, 包括递归方式和非递归方式
* @author York
*
*/
public class Code_01_PreInPosTraversal {
//定义二叉树
public static class Node {
public int value;
public Node left;
public Node right;
public Node(int data) {
this.value = data;
}
}
//xian先序遍历 先打印头部 再打印左子树 再右子树;
public static void preOrderRecur(Node head) {
if (head == null) {
return;
}
//打印的时机 第一次来到这个节点 先序遍历
System.out.print(head.value + " ");
preOrderRecur(head.left);
preOrderRecur(head.right);
}
public static void inOrderRecur(Node head) {
if (head == null) {
return;
}
inOrderRecur(head.left);
//打印的时机 第二次来到这个节点 中序遍历
System.out.print(head.value + " ");
inOrderRecur(head.right);
}
public static void posOrderRecur(Node head) {
if (head == null) {
return;
}
posOrderRecur(head.left);
posOrderRecur(head.right);
//打印的时机 第三次来到这个节点 后序遍历
System.out.print(head.value + " ");
}
public static void preOrderUnRecur(Node head) {
System.out.print("pre-order: ");
if (head != null) {
Stack<Node> stack = new Stack<Node>();
stack.add(head);
while (!stack.isEmpty()) {
head = stack.pop();
System.out.print(head.value + " ");
if (head.right != null) {
stack.push(head.right);
}
if (head.left != null) {
stack.push(head.left);
}
}
}
System.out.println();
}
public static void inOrderUnRecur(Node head) {
System.out.println("中序:");
if(head != null) {
Stack<Node> stack = new Stack<>();
while(!stack.isEmpty() || head != null ) {
if(head.left != null) {
stack.push(head.left);
head = head.left;
}else {
head = stack.pop();
System.out.println(head.value);
head = head.right;
}
}
}
System.out.println();
}
public static void inOrderUnRecur2(Node head) {
System.out.print("in-order: ");
if (head != null) {
Stack<Node> stack = new Stack<Node>();
while (!stack.isEmpty() || head != null) {
if (head != null) {
stack.push(head);
head = head.left;
} else {
head = stack.pop();
System.out.print(head.value + " ");
head = head.right;
}
}
}
System.out.println();
}
public static void posOrderUnRecur1(Node head) {
System.out.print("pos-order: ");
if (head != null) {
Stack<Node> s1 = new Stack<Node>();
Stack<Node> s2 = new Stack<Node>();
s1.push(head);
while (!s1.isEmpty()) {
head = s1.pop();
s2.push(head);
if (head.left != null) {
s1.push(head.left);
}
if (head.right != null) {
s1.push(head.right);
}
}
while (!s2.isEmpty()) {
System.out.print(s2.pop().value + " ");
}
}
System.out.println();
}
public static void posOrderUnRecur2(Node h) {
System.out.print("pos-order: ");
if (h != null) {
Stack<Node> stack = new Stack<Node>();
stack.push(h);
Node c = null;
while (!stack.isEmpty()) {
c = stack.peek();
if (c.left != null && h != c.left && h != c.right) {
stack.push(c.left);
} else if (c.right != null && h != c.right) {
stack.push(c.right);
} else {
System.out.print(stack.pop().value + " ");
h = c;
}
}
}
System.out.println();
}
public static void main(String[] args) {
Node head = new Node(5);
head.left = new Node(3);
head.right = new Node(8);
head.left.left = new Node(2);
head.left.right = new Node(4);
head.left.left.left = new Node(1);
head.right.left = new Node(7);
head.right.left.left = new Node(6);
head.right.right = new Node(10);
head.right.right.left = new Node(9);
head.right.right.right = new Node(11);
// recursive
System.out.println("==============recursive==============");
System.out.print("pre-order: ");
preOrderRecur(head);
System.out.println();
System.out.print("in-order: ");
inOrderRecur(head);
System.out.println();
System.out.print("pos-order: ");
posOrderRecur(head);
System.out.println();
// unrecursive
System.out.println("============unrecursive=============");
preOrderUnRecur(head);
inOrderUnRecur(head);
posOrderUnRecur1(head);
posOrderUnRecur2(head);
}
}
判断一棵树是否是完全二叉树
判断一棵树是否为平衡二叉树
判断一棵树是否为满二叉树(有时间补上)
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