java 多态

            多态的作用主要是类型之间的耦合关系,又被称为动态绑定,后期绑定或者运行时绑定;

package com.Polymorphism;

public class Shapes {
    public void draw(){
        System.out.println("Shapes.draw()");
    }
    public void erase(){
        System.out.println("Shapes.erase()");
    }
    public void plink(){
        System.out.println("Shapes.plink()"+this.getClass());
    }
}
package com.Polymorphism;

public class Square extends Shapes {
    @Override
    public void draw() {
        System.out.println("Square.draw()");
    }

    @Override
    public void erase() {
        System.out.println("Square.erase()");
    }
    @Override
    public void plink(){
        System.out.println("Square.plink()"+this.getClass());
    }

}
package com.Polymorphism;

public class Triangle extends Shapes {
    @Override
    public void draw() {
        System.out.println("Triangle.draw()");
    }

    @Override
    public void erase() {
        System.out.println("Triangle.erase()");
    }
    @Override
    public void plink(){
        System.out.println("Triangle.plink()"+this.getClass());
    }
}
package com.Polymorphism;

public class Circle extends Shapes {

    @Override
    public void draw() {
        System.out.println("Circle.draw()");
    }

    @Override
    public void erase() {
        System.out.println("Circle.erase()");
    }
    @Override
    public void plink(){
        System.out.println("Circle.plink()"+this.getClass());
    }
}
package com.Polymorphism;

import java.util.Random;

public class Polymorphism {
    private Random random=new Random(47);
    public Shapes next(){
        switch ((random.nextInt(3))){
            default:
            case 0:
                return new Circle();
            case 1:
                return new Square();
            case 2:
                return new Triangle();
        }
    }
}

package com.Polymorphism;

public class test {
    private static Polymorphism polymorphism=new Polymorphism();

    public static void main(String args[]){
        Shapes[] shapes=new Shapes[12];
        for(int i=0;i

将一个方法调用预期方法体关联起来,称为方法调用;如果在运行前已经被绑定,则称为前期绑定。而对于一个Shapes引用时,无法知道究竟调用那个方法,解决的办法就是后期绑定,也称为运行期绑定或者动态绑定。

注意,在私有方法被”覆盖“,由于私有方法被认为是,private方法,故导出类,无法访问,也就无法被覆盖,只是拥有与基类相同的方法名而已;

静态方法,也不具备多态性;构造器,其实际上也是static方法,也不存在多态性,但是要了解其在多态的复杂情况下的运行情况;

多态情况下的构造器运行为:
1)调用基类构造器,即首先是根基类的构造器,其次是基类的构造器;
2)其次,按照申明顺序调用成员的初始化方法;
3)调用导出类构造器的主体;

举例说明:

package com.Polymorphism;
class Meal{
    Meal(){
        System.out.println("Meal()");
    }
}
class Chese{
    Chese(){
        System.out.println("Chese()");
    }
}
class Lettuce{
    Lettuce(){
        System.out.println("Lettuce()");
    }
}
class Lunch extends Meal{
    Lunch(){
        System.out.println("Lunch()");
    }
}
class dinner extends Lunch{
    dinner(){
        System.out.println("dinner()");
    }
}

public class se extends dinner{
    private Chese chese=new Chese();
    private Lettuce lettuce=new Lettuce();
    public se(){
        System.out.println("MEal()");
    }
    public static void main(String[] args){
        new se();
    }
}

Meal()
Lunch()
dinner()
Chese()
Lettuce()
MEal()


向上转型,会损失部分导出类的新方法,如果我们要访问这些方法,可以通过向下转型,但是如果类型转换存在错误,会抛出ClassCastException异常;

你可能感兴趣的:(java 多态)