一、什么是引用类型
在Java中引用类型包括三种:类、抽象类、接口。
二、引用类型作为形参使用
1、类作为形参
/**
* 类作为形参,实际传递的是该类的对象
*/
class Student { public void study() {
System.out.println("Good Good Study, Day Day Up");
}
} class StudentDemo { public void show(Student s) {
s.study();
}
} public class StudentTest { public static void main(String[] args) { StudentDemo sd = new StudentDemo();
Student s = new Student();
sd.show(s);
}
}
2、抽象类作为形参
/**
* 抽象类作为形参,传递的是实现该抽象类的子类对象
*/
abstract class Person { public abstract void eat();
} class XiaoMing extends Person { @Override
public void eat() {
// TODO Auto-generated method stub
System.out.println("小明爱吃米饭");
}
} class PersonDemo { public void show(Person p) {
p.eat();
}
} public class PersonTest { public static void main(String[] args) {
PersonDemo pd = new PersonDemo();
// 方式一、传递的是实现该抽象类的子类对象
Person p = new XiaoMing(); // 多态
pd.show(p);
System.out.println("------------------");
// 方式二、直接实现抽象类,传递匿名子类对象
pd.show(new Person() { @Override
public void eat() {
// TODO Auto-generated method stub
System.out.println("小明爱上了吃面条");
}
});
}
}
3、接口作为形参
/**
* 接口作为形参,传递的是实现该接口的子类对象
*/
interface Teacher {
// 接口 like a 的关系,并不是所有 Teacher 都抽烟
public abstract void smoke();
} class TeacherZhang implements Teacher { @Override
public void smoke() {
// TODO Auto-generated method stub
System.out.println("老师爱抽中华");
}
} class TeacherDemo { public void show(Teacher t) {
t.smoke();
}
} public class TeacherTest { public static void main(String[] args) {
TeacherDemo td = new TeacherDemo();
// 方式一、传递的是实现该接口的子类对象
Teacher t = new TeacherZhang(); // 多态
td.show(t);
System.out.println("------------------");
// 方式二、直接实现接口,传递匿名子类对象
td.show(new Teacher() { @Override
public void smoke() {
// TODO Auto-generated method stub
System.out.println("老师不抽中华了,爱上了雪茄");
}
});
}
}
三、返回引用类型值
1、返回类类型值,实际返回的是该类的对象
/**
* 类作为返回值,实际返回的是该类的对象
*/
class Student { public void study() {
System.out.println("Good Good Study, Day Day Up");
}
} class StudentDemo { public Student getInstance() {
return new Student();
}
} public class StudentTest2 { public static void main(String[] args) {
StudentDemo sd = new StudentDemo();
Student s = sd.getInstance();
s.study();
}
}
2、返回抽象类类型值,实际返回的是实现该抽象类子类的对象
/**
* 抽象类作为返回值,实际返回的是实现该抽象类的子类对象
*/
abstract class Person { public abstract void eat();
} class XiaoMing extends Person { @Override
public void eat() {
// TODO Auto-generated method stub
System.out.println("小明爱吃米饭");
}
} class PersonDemo { public Person getIntance() {
return new XiaoMing();
}
} public class PersonTest2 { public static void main(String[] args) {
PersonDemo pd = new PersonDemo();
Person p = pd.getIntance();
p.eat();
}
}
3、返回接口类型值,实际返回的是实现该接口子类的对象
/**
* 接口作为返回值,实际返回的是实现该接口的子类对象
*/
interface Teacher {
// 接口 like a 的关系,并不是所有 Teacher 都抽烟
public abstract void smoke();
} class TeacherZhang implements Teacher { @Override
public void smoke() {
// TODO Auto-generated method stub
System.out.println("老师爱抽中华");
}
} class TeacherDemo { public Teacher getIntance() {
return new TeacherZhang();
}
} public class TeacherTest2 {
public static void main(String[] args) {
TeacherDemo td = new TeacherDemo();
Teacher t = td.getIntance();
t.smoke();
}
}