java 单链表 练习

时间:2024-01-13 12:18:08

练习一下java单链表的简单习题

package com.test1;

import java.util.Stack;

public class SingleListDemo {

	/**
* 返回单链表的总长度
* @param sl
* @return
*/
public static <T> int getListLength(SingleList<T> sl) {
Node<T> temp = sl.headNode.next;
int index = 0;
while(temp != null) {
temp = temp.next;
index++;
}
return index;
} /**
* 查找单链表中倒数第k个元素
* @param sl
* @param k
* @return
*/
public static <T> Node<T> getLastK(SingleList<T> sl, int k){
int length = getListLength(sl);
if(length < k) {
throw new RuntimeException("不存在倒数第" + k + "个节点");
}
int index = length - k;
Node<T> temp = sl.headNode.next;
while(index != 0) {
temp = temp.next;
index--;
}
return temp;
} /**
* 单链表的反转
* @param <T>
* @param args
*/
public static <T> void reverseList(SingleList<T> sl){
int length = getListLength(sl);
if(length == 1) {
return;
} Node<T> headNode = sl.headNode;
Node<T> last = headNode.next;
Node<T> cur = last.next;
Node<T> next = cur.next;
last.next = null;
while(next != null) {
cur.next = last;
last = cur;
cur = next;
next = next.next;
}
cur.next = last;
sl.headNode.next = cur;
} /**
* 从尾到头打印单链表 (利用栈)
* @param <T>
* @param args
*/
public static <T> void printReverseList1(SingleList<T> sl) {
Node<T> temp = sl.headNode.next;
Stack<T> stack = new Stack<>();
while(temp != null) {
stack.push(temp.data);
temp = temp.next;
}
while(!stack.empty()) {
System.out.println(stack.pop());
}
} /**
* 从尾到头打印单链表 (利用递归) 很是牛逼!
* @param <T>
* @param args
*/
public static <T> void printReverseList2(Node<T> node) {
if(node.next != null) {
printReverseList2(node.next);
}
System.out.println(node.data);
} /**
* 合并两个有序的单链表,合并之后的单链表任然有序
* @param <T>
* @param args
*/
public static <T> SingleList<T> mergeTwoList(SingleList<T> sl1, SingleList<T> sl2) {
SingleList<T> result = new SingleList<>();
Node<T> temp1 = sl1.headNode.next;
Node<T> temp2 = sl2.headNode.next;
while(temp1 != null && temp2 != null) {
if(temp1.compareTo(temp2) < 0) {
Node<T> temp = temp1;
temp1 = temp1.next;
temp.next = null;
result.addNode(temp);
} else {
Node<T> temp = temp2;
temp2 = temp2.next;
temp.next = null;
result.addNode(temp);
}
}
Node<T> temp = temp1 == null ? temp2 : temp1;
while(temp != null) {
result.addNode(temp);
temp = temp.next;
}
return result;
} public static void main(String[] args) {
// SingleList<String> sl = new SingleList<>();
// sl.addNode(new Node<>("李四", null));
// sl.addNode(new Node<>("张三", null));
// sl.addNode(new Node<>("王五", null));
// sl.addNode(new Node<>("赵六", null));
// sl.showData();
// System.out.println(getListLength(sl));
// Node<String> node = getLastK(sl, 2);
// System.out.println(node);
// reverseList(sl);
// System.out.println("\n反转之后为:");
// sl.showData();
// System.out.println("\n从尾到头打印单链表");
// printReverseList2(sl.headNode.next);
// Node<Integer> a = new Node<>(1, null);
// Node<Integer> b = new Node<>(2, null);
// System.out.println(a.compareTo(b)); SingleList<Integer> sl = new SingleList<>();
sl.addNodeOrder(new Node<>(1, null));
sl.addNodeOrder(new Node<>(3, null));
sl.addNodeOrder(new Node<>(70, null));
sl.addNodeOrder(new Node<>(2, null));
sl.showData();
SingleList<Integer> sl1 = new SingleList<>();
sl1.addNodeOrder(new Node<>(11, null));
sl1.addNodeOrder(new Node<>(13, null));
sl1.addNodeOrder(new Node<>(17, null));
sl1.addNodeOrder(new Node<>(12, null));
sl1.showData();
System.out.println("\n合并之后为:");
SingleList<Integer> result = mergeTwoList(sl, sl1);
result.showData();
}
} class Node<T> implements Comparable<Node<T>>{
public T data;
public Node<T> next;
public Node(T data, Node<T> next) {
super();
this.data = data;
this.next = next;
}
@Override
public String toString() {
return this.data.toString();
} @SuppressWarnings("unchecked")
@Override
public int compareTo(Node<T> o) {
if(o.data instanceof Comparable) {
return ((Comparable<Comparable<?>>) this.data).compareTo((Comparable<?>) o.data);
}
return 0;
} } class SingleList<T>{
public Node<T> headNode = new Node<>(null, null); /**
* 往尾部添加节点
* @param node
*/
public void addNode(Node<T> node) {
Node<T> temp = headNode;
while(temp.next != null) {
temp = temp.next;
}
temp.next = node;
} /**
* 按照节点的大小添加节点,使得链表有序
*/
public void addNodeOrder(Node<T> node) {
Node<T> last = headNode;
Node<T> temp = last.next;
while(temp != null && temp.compareTo(node) < 0) {
last = temp;
temp = temp.next;
}
if(temp != null && temp.compareTo(node) == 0) {
throw new RuntimeException("已经存在相同的节点,不允许再次添加");
}
last.next = node;
node.next = temp;
} /**
* 显示list中的数据
*/
public void showData() {
Node<T> temp = headNode.next;
while(temp != null) {
System.out.print(temp + " ");
temp = temp.next;
}
} }