迭代器模式
迭代器模式(Iterator Pattern):提供一种方法来访问聚合对象,而不用暴露这个对象的内部表示,其别名为游标(Cursor)。迭代器模式是一种对象行为型模式
示例1
以学院及部门为例。学院有计算机学院和信息工程学院,而两者的内部存储方式并不同,一个是用数组存储部门,一个是List存储部门,这是如果想要获取不同学院的部门,传统模式将存储和遍历放在一起,导致类职责过重,违反“单一职责原则”。将学院抽象出接口,导致接口中方法过多,违反了“接口隔离原则”
- 部门
public class Department {
private String name;
public Department(String name) {
this.name = name;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
}
- 学院接口
public interface ICollege {
String getName();
void addDepartment(String name);
Iterator createIterator();
}
- 计算机学院
public class ComputerCollege implements ICollege {
Department[] departments = new Department[2];
int totalOfDepartment = 0 ;
@Override
public String getName() {
return "计算机学院";
}
@Override
public void addDepartment(String name) {
Department department = new Department(name);
departments[totalOfDepartment++] = department;
}
@Override
public Iterator createIterator() {
return new ComputerCollegeIterator(departments);
}
}
- 信息工程学院
public class InfoCollege implements ICollege {
List<Department> departmentList = new ArrayList<>(2);
@Override
public String getName() {
return "信息工程学院";
}
@Override
public void addDepartment(String name) {
departmentList.add(new Department(name));
}
@Override
public Iterator createIterator() {
return new InfoColleageIterator(departmentList);
}
}
- 计算机Iterator
public class ComputerCollegeIterator implements Iterator {
Department[] departments;
int index = 0;
public ComputerCollegeIterator(Department[] departments) {
this.departments = departments;
}
@Override
public boolean hasNext() {
if (index >= departments.length || departments[index] == null) {
return false;
}
return true;
}
@Override
public Object next() {
return departments[index++];
}
}
- 信息工程Iterator
public class InfoColleageIterator implements Iterator {
private List<Department> departmentList;
int index = -1;
public InfoColleageIterator(List<Department> departmentList) {
this.departmentList = departmentList;
}
@Override
public boolean hasNext() {
if(index++ >= departmentList.size() - 1) {
return false;
}
return true;
}
@Override
public Object next() {
return departmentList.get(index);
}
}
- 获取信息类
public class CollegeInfo {
private List<ICollege> collegeList;
public CollegeInfo(List<ICollege> collegeList) {
this.collegeList = collegeList;
}
public void getCollegeInfo() {
Iterator<ICollege> iterator = collegeList.iterator();
ICollege college;
while (iterator.hasNext()) {
college = iterator.next();
System.out.println("--- " + college.getName() + " ---");
// 打印学院下面的department
getDepartInfo(college.createIterator());
}
}
private void getDepartInfo(Iterator iterator) {
Department department;
while (iterator.hasNext()) {
department = (Department) iterator.next();
System.out.println(department.getName());;
}
}
}
- 测试类
public class Iterator01Test {
public static void main(String[] args) {
ArrayList<ICollege> colleges = new ArrayList<>(2);
ComputerCollege computerCollege = new ComputerCollege();
computerCollege.addDepartment("软件工程");
computerCollege.addDepartment("大数据");
InfoCollege infoCollege = new InfoCollege();
infoCollege.addDepartment("信息安全");
infoCollege.addDepartment("网络安全");
colleges.add(computerCollege);
colleges.add(infoCollege);
CollegeInfo collegeInfo = new CollegeInfo(colleges);
collegeInfo.getCollegeInfo();
/**
* --- 计算机学院 ---
* 软件工程
* 大数据
* --- 信息工程学院 ---
* 信息安全
* 网络安全
*/
}
}
总结
-
优点
- 提供一个统一的方法遍历对象,客户不用再考虑聚合的类型,使用一种方法就可以遍历对象了
- 隐藏了聚合的内部结构,客户端要遍历聚合的时候只能取到迭代器,而不会知道聚合的具体组成
- 迭代器简化了聚合类。由于引入了迭代器,在原有的聚合对象中不需要再自行提供数据遍历等方法,这样可以简化聚合类的设计
- 在迭代器模式中,由于引入了抽象层,增加新的聚合类和迭代器类都很方便,无须修改原有代码,满足“开闭原则”的要求
-
缺点
- 产生很多的迭代器类,不好维护
-
适用场景
- 需要遍历一组相似对象或者相同对象时
- 需要隐藏对象的内部实现时
- 需要为一个对象提供多种遍历方式时
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