原文地址:http://blog.csdn.net/ljphhj/article/details/12858767
JAVA反射机制:
通俗地说,反射机制就是可以把一个类,类的成员(函数,属性),当成一个对象来操作,希望读者能理解,也就是说,类,类的成员,我们在运行的时候还可以动态地去操作他们.
理论的东东太多也没用,下面我们看看实践 Demo ~
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.TypeVariable; public class Main {
/**
* 为了看清楚Java反射部分代码,所有异常我都最后抛出来给虚拟机处理!
* @param args
* @throws ClassNotFoundException
* @throws InstantiationException
* @throws IllegalAccessException
* @throws InvocationTargetException
* @throws IllegalArgumentException
* @throws NoSuchFieldException
* @throws SecurityException
* @throws NoSuchMethodException
*/
public static void main(String[] args) throws ClassNotFoundException, InstantiationException, IllegalAccessException, IllegalArgumentException, InvocationTargetException, SecurityException, NoSuchFieldException, NoSuchMethodException {
// TODO Auto-generated method stub //Demo1. 通过Java反射机制得到类的包名和类名
Demo1();
System.out.println("==============================================="); //Demo2. 验证所有的类都是Class类的实例对象
Demo2();
System.out.println("==============================================="); //Demo3. 通过Java反射机制,用Class 创建类对象[这也就是反射存在的意义所在],无参构造
Demo3();
System.out.println("==============================================="); //Demo4: 通过Java反射机制得到一个类的构造函数,并实现构造带参实例对象
Demo4();
System.out.println("==============================================="); //Demo5: 通过Java反射机制操作成员变量, set 和 get
Demo5();
System.out.println("==============================================="); //Demo6: 通过Java反射机制得到类的一些属性: 继承的接口,父类,函数信息,成员信息,类型等
Demo6();
System.out.println("==============================================="); //Demo7: 通过Java反射机制调用类中方法
Demo7();
System.out.println("==============================================="); //Demo8: 通过Java反射机制获得类加载器
Demo8();
System.out.println("==============================================="); } /**
* Demo1: 通过Java反射机制得到类的包名和类名
*/
public static void Demo1()
{
Person person = new Person();
System.out.println("Demo1: 包名: " + person.getClass().getPackage().getName() + ","
+ "完整类名: " + person.getClass().getName());
} /**
* Demo2: 验证所有的类都是Class类的实例对象
* @throws ClassNotFoundException
*/
public static void Demo2() throws ClassNotFoundException
{
//定义两个类型都未知的Class , 设置初值为null, 看看如何给它们赋值成Person类
Class<?> class1 = null;
Class<?> class2 = null; //写法1, 可能抛出 ClassNotFoundException [多用这个写法]
class1 = Class.forName("cn.lee.demo.Person");
System.out.println("Demo2:(写法1) 包名: " + class1.getPackage().getName() + ","
+ "完整类名: " + class1.getName()); //写法2
class2 = Person.class;
System.out.println("Demo2:(写法2) 包名: " + class2.getPackage().getName() + ","
+ "完整类名: " + class2.getName());
} /**
* Demo3: 通过Java反射机制,用Class 创建类对象[这也就是反射存在的意义所在]
* @throws ClassNotFoundException
* @throws IllegalAccessException
* @throws InstantiationException
*/
public static void Demo3() throws ClassNotFoundException, InstantiationException, IllegalAccessException
{
Class<?> class1 = null;
class1 = Class.forName("cn.lee.demo.Person");
//由于这里不能带参数,所以你要实例化的这个类Person,一定要有无参构造函数哈~
Person person = (Person) class1.newInstance();
person.setAge(20);
person.setName("LeeFeng");
System.out.println("Demo3: " + person.getName() + " : " + person.getAge());
} /**
* Demo4: 通过Java反射机制得到一个类的构造函数,并实现创建带参实例对象
* @throws ClassNotFoundException
* @throws InvocationTargetException
* @throws IllegalAccessException
* @throws InstantiationException
* @throws IllegalArgumentException
*/
public static void Demo4() throws ClassNotFoundException, IllegalArgumentException, InstantiationException, IllegalAccessException, InvocationTargetException
{
Class<?> class1 = null;
Person person1 = null;
Person person2 = null; class1 = Class.forName("cn.lee.demo.Person");
//得到一系列构造函数集合
Constructor<?>[] constructors = class1.getConstructors(); person1 = (Person) constructors[0].newInstance();
person1.setAge(30);
person1.setName("leeFeng"); person2 = (Person) constructors[1].newInstance(20,"leeFeng"); System.out.println("Demo4: " + person1.getName() + " : " + person1.getAge()
+ " , " + person2.getName() + " : " + person2.getAge()
); } /**
* Demo5: 通过Java反射机制操作成员变量, set 和 get
*
* @throws IllegalAccessException
* @throws IllegalArgumentException
* @throws NoSuchFieldException
* @throws SecurityException
* @throws InstantiationException
* @throws ClassNotFoundException
*/
public static void Demo5() throws IllegalArgumentException, IllegalAccessException, SecurityException, NoSuchFieldException, InstantiationException, ClassNotFoundException
{
Class<?> class1 = null;
class1 = Class.forName("cn.lee.demo.Person");
Object obj = class1.newInstance(); Field personNameField = class1.getDeclaredField("name");
personNameField.setAccessible(true);
personNameField.set(obj, "胖虎先森"); System.out.println("Demo5: 修改属性之后得到属性变量的值:" + personNameField.get(obj)); } /**
* Demo6: 通过Java反射机制得到类的一些属性: 继承的接口,父类,函数信息,成员信息,类型等
* @throws ClassNotFoundException
*/
public static void Demo6() throws ClassNotFoundException
{
Class<?> class1 = null;
class1 = Class.forName("cn.lee.demo.SuperMan"); //取得父类名称
Class<?> superClass = class1.getSuperclass();
System.out.println("Demo6: SuperMan类的父类名: " + superClass.getName()); System.out.println("==============================================="); Field[] fields = class1.getDeclaredFields();
for (int i = 0; i < fields.length; i++) {
System.out.println("类中的成员: " + fields[i]);
}
System.out.println("==============================================="); //取得类方法
Method[] methods = class1.getDeclaredMethods();
for (int i = 0; i < methods.length; i++) {
System.out.println("Demo6,取得SuperMan类的方法:");
System.out.println("函数名:" + methods[i].getName());
System.out.println("函数返回类型:" + methods[i].getReturnType());
System.out.println("函数访问修饰符:" + Modifier.toString(methods[i].getModifiers()));
System.out.println("函数代码写法: " + methods[i]);
} System.out.println("==============================================="); //取得类实现的接口,因为接口类也属于Class,所以得到接口中的方法也是一样的方法得到哈
Class<?> interfaces[] = class1.getInterfaces();
for (int i = 0; i < interfaces.length; i++) {
System.out.println("实现的接口类名: " + interfaces[i].getName() );
} } /**
* Demo7: 通过Java反射机制调用类方法
* @throws ClassNotFoundException
* @throws NoSuchMethodException
* @throws SecurityException
* @throws InvocationTargetException
* @throws IllegalAccessException
* @throws IllegalArgumentException
* @throws InstantiationException
*/
public static void Demo7() throws ClassNotFoundException, SecurityException, NoSuchMethodException, IllegalArgumentException, IllegalAccessException, InvocationTargetException, InstantiationException
{
Class<?> class1 = null;
class1 = Class.forName("cn.lee.demo.SuperMan"); System.out.println("Demo7: \n调用无参方法fly():");
Method method = class1.getMethod("fly");
method.invoke(class1.newInstance()); System.out.println("调用有参方法walk(int m):");
method = class1.getMethod("walk",int.class);
method.invoke(class1.newInstance(),100);
} /**
* Demo8: 通过Java反射机制得到类加载器信息
*
* 在java中有三种类类加载器。[这段资料网上截取] 1)Bootstrap ClassLoader 此加载器采用c++编写,一般开发中很少见。 2)Extension ClassLoader 用来进行扩展类的加载,一般对应的是jre\lib\ext目录中的类 3)AppClassLoader 加载classpath指定的类,是最常用的加载器。同时也是java中默认的加载器。
*
* @throws ClassNotFoundException
*/
public static void Demo8() throws ClassNotFoundException
{
Class<?> class1 = null;
class1 = Class.forName("cn.lee.demo.SuperMan");
String nameString = class1.getClassLoader().getClass().getName(); System.out.println("Demo8: 类加载器类名: " + nameString);
} }
/**
*
* @author xiaoyaomeng
*
*/
class Person{
private int age;
private String name;
public Person(){ }
public Person(int age, String name){
this.age = age;
this.name = name;
} public int getAge() {
return age;
}
public void setAge(int age) {
this.age = age;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
} class SuperMan extends Person implements ActionInterface
{
private boolean BlueBriefs; public void fly()
{
System.out.println("超人会飞耶~~");
} public boolean isBlueBriefs() {
return BlueBriefs;
}
public void setBlueBriefs(boolean blueBriefs) {
BlueBriefs = blueBriefs;
} @Override
public void walk(int m) {
// TODO Auto-generated method stub
System.out.println("超人会走耶~~走了" + m + "米就走不动了!");
}
}
interface ActionInterface{
public void walk(int m);
}