写代码过程中,将写代码过程重要的代码片段收藏起来,下面的代码是关于Java通过递归进行二叉树遍历的代码,应该是对各朋友有一些好处。
package com.wzs;
public class TestBinaryTree {
public static void main(String[] args) {
Node<String> g = new Node<String>("G", null, null);
Node<String> e = new Node<String>("E", null, null);
Node<String> f = new Node<String>("F", null, null);
Node<String> d = new Node<String>("D", null, g);
Node<String> b = new Node<String>("B", d, e);
Node<String> c = new Node<String>("C", null, f);
Node<String> a = new Node<String>("A", b, c);
System.out.println("生成的二叉树:");
System.out.println(" A");
System.out.println(" | ");
System.out.println(" |---------|");
System.out.println(" B C");
System.out.println(" | |");
System.out.println(" |---------| -----|");
System.out.println(" D E F");
System.out.println(" |");
System.out.println(" ----|");
System.out.println(" G");
System.out.println("二叉树深度:" + BinaryTree.getDepth(a));
System.out.print("前序遍历:");
BinaryTree.priorderTraversal(a);
System.out.println();
System.out.print("中序遍历:");
BinaryTree.inorderTraversal(a);
System.out.println();
System.out.print("后序遍历:");
BinaryTree.postorderTraversal(a);
System.out.println();
}
}
class BinaryTree {
static <T> void priorderTraversal(Node<T> node) {
if (node != null) {
visitNode(node);
priorderTraversal(node.getLeftChild());
priorderTraversal(node.getRightChild());
}
}
static <T> void inorderTraversal(Node<T> node) {
if (node != null) {
inorderTraversal(node.getLeftChild());
visitNode(node);
inorderTraversal(node.getRightChild());
}
}
static <T> void postorderTraversal(Node<T> node) {
if (node != null) {
postorderTraversal(node.getLeftChild());
postorderTraversal(node.getRightChild());
visitNode(node);
}
}
static <T> int getDepth(Node<T> node) {
if (node == null) {
return 0;
}
int leftDepth = 0;
int rightDepth = 0;
leftDepth = getDepth(node.getLeftChild());
rightDepth = getDepth(node.getRightChild());
return (leftDepth > rightDepth ? leftDepth : rightDepth) + 1;
}
static <T> void visitNode(Node<T> node) {
System.out.print(node.getKey() + " ");
}
}
class Node<T> {
private T key;
private Node<T> leftChild;
private Node<T> rightChild;
public Node() {
}
public Node(T key, Node<T> leftChild, Node<T> rightChild) {
super();
this.key = key;
this.leftChild = leftChild;
this.rightChild = rightChild;
}
public T getKey() {
return key;
}
public void setKey(T key) {
this.key = key;
}
public Node<T> getLeftChild() {
return leftChild;
}
public void setLeftChild(Node<T> leftChild) {
this.leftChild = leftChild;
}
public Node<T> getRightChild() {
return rightChild;
}
public void setRightChild(Node<T> rightChild) {
this.rightChild = rightChild;
}
}
输出结果:
生成的二叉树:
A
|
|---------|
B C
| |
|---------| -----|
D E F
|
----|
G
二叉树深度:4
前序遍历:A B D G E C F
中序遍历:D G B E A C F
后序遍历:G D E B F C A
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