-------android培训、java培训、期待与您交流!
---------- -------android培训、java培训、期待与您交流!
----------
交通灯管理系统项目需求
模拟实现十字路口的交通灯管理系统逻辑,具体需求如下:
异步随机生成按照各个路线行驶的车辆
信号灯忽略黄灯,只考虑红灯和绿灯
应考虑左转车俩控制信号灯,右转车俩不受信号灯控制
具体信号灯控制逻辑与现实生活中普通交通灯逻辑相同,不考虑特殊情况下的控制逻辑
每辆车通过路口时间为1秒(提示,可通过县城Sleep的方式模拟)
随即生成车辆时间间隔以及红绿灯交换时间间隔自定,可以设置
不要求实现gui,只考虑系统逻辑实现,可通过log方式展现程序运行结果
面向对象的分析与设计
每条路线上都会出现多辆车,路线上要随即增加新的车,在灯绿期间还要每秒钟减少一辆车
设计一个Road类来表示路线,每个Road对象代表一条路线,总共有12条路线,即系统中总共产生12个Road实例对象
每条路线上随机增加新的车辆,增加到一个集合中保存
每条路线上每隔一秒都会查看控制本路线的灯是否为绿,是则将本路线保存车的稽核中的第一辆车移除,即表示车穿过了路口
每条路线每隔一秒都会检查在控制本路线的灯是否为绿,一个灯由绿变红时,应该将下一个方向的灯变绿
设计一个Lamp类来表示一个交通灯,每个交通灯维护一个状态,亮(绿),或不亮(红)每个交通灯要有变亮和变黑的方法,并且要有自己
的亮黑状态
总共有12条路线,所以,系统中总共要产生12个交通灯,右拐弯的路线本来不受灯的控制,但是为了让程序采用统一的处理方式,故假设出有四个右拐弯的灯
,之是这些灯为常亮状态
除了右拐弯方向的去他8条路线的灯,他们是俩俩成对儿的,可以分为4组,所以,在编程处理时,只要从这4组中各取出一个灯,对这四个灯依次轮流变亮
与这4个灯对应的灯则随之一同变化,因此Lamp类汇要有一个变量来记住自己相反方向的灯,在一个Lamp对象的变亮和变黑方法中
将对应方向的灯也变亮和变黑,每隔灯变黑时,都伴随着下一个灯的变亮
- package com.heima.traffic;
- public enum Lamp {
- S2N("N2S","S2W",false),S2W("N2E","E2W",false),E2W("W2E","E2S",false),E2S("W2N","S2N",false),
- N2S(null,null,false),N2E(null,null,false),W2E(null,null,false),W2N(null,null,false),
- S2E(null,null,true),E2N(null,null,true),N2W(null,null,true),W2S(null,null,true);
- private Lamp(String opposite,String next,boolean lighted){
- this.opposite = opposite;
- this.next = next;
- this.lighted = lighted;
- }
- private boolean lighted;
- private String opposite;
- private String next;
- public boolean isLighted(){
- return lighted;
- }
- public void light(){
- this.lighted = true;
- if(opposite != null){
- Lamp.valueOf(opposite).light();
- }
- System.out.println(name() + " lamp is green,下面总共应该有6个方向能看到汽车穿过!");
- }
- public Lamp blackOut(){
- this.lighted = false;
- if(opposite != null){
- Lamp.valueOf(opposite).blackOut();
- }
- Lamp nextLamp= null;
- if(next != null){
- nextLamp = Lamp.valueOf(next);
- System.out.println("绿灯从" + name() + "-------->切换为" + next);
- nextLamp.light();
- }
- return nextLamp;
- }
- }
LampController
- package com.heima.traffic;
- import java.util.concurrent.Executors;
- import java.util.concurrent.ScheduledExecutorService;
- import java.util.concurrent.TimeUnit;
- public class LampController {
- private Lamp currentLamp;
- public LampController(){
- //刚开始让由南向北的灯变绿;
- currentLamp = Lamp.S2N;
- currentLamp.light();
- ScheduledExecutorService timer = Executors.newScheduledThreadPool(1);
- timer.scheduleAtFixedRate(
- new Runnable(){
- public void run(){
- System.out.println("来啊");
- currentLamp = currentLamp.blackOut();
- }
- },
- 10,
- 10,
- TimeUnit.SECONDS);
- }
- }
MainClass类
- package com.heima.traffic;
- public class MainClass {
- public static void main(String[] args) {
- String [] directions = new String[]{
- "S2N","S2W","E2W","E2S","N2S","N2E","W2E","W2N","S2E","E2N","N2W","W2S"
- };
- for(int i=0;i<directions.length;i++){
- new Road(directions[i]);
- }
- new LampController();
- }
- }
Road类
- package com.heima.traffic;
- import java.util.ArrayList;
- import java.util.List;
- import java.util.Random;
- import java.util.concurrent.ExecutorService;
- import java.util.concurrent.Executors;
- import java.util.concurrent.ScheduledExecutorService;
- import java.util.concurrent.TimeUnit;
- public class Road {
- private List<String> vechicles = new ArrayList<String>();
- private String name =null;
- public Road(String name){
- this.name = name;
- //模拟车辆不断随机上路的过程
- ExecutorService pool = Executors.newSingleThreadExecutor();
- pool.execute(new Runnable(){
- public void run(){
- for(int i=1;i<1000;i++){
- try {
- Thread.sleep((new Random().nextInt(10) + 1) * 1000);
- } catch (InterruptedException e) {
- e.printStackTrace();
- }
- vechicles.add(Road.this.name + "_" + i);
- }
- }
- });
- //每隔一秒检查对应的灯是否为绿,是则放行一辆车
- ScheduledExecutorService timer = Executors.newScheduledThreadPool(1);
- timer.scheduleAtFixedRate(
- new Runnable(){
- public void run(){
- if(vechicles.size()>0){
- boolean lighted = Lamp.valueOf(Road.this.name).isLighted();
- if(lighted){
- System.out.println(vechicles.remove(0) + " is traversing !");
- }
- }
- }
- }1,
- 1,
- TimeUnit.SECONDS);
- TimeUnit.SECONDS);
- }
- }