Java8-函数式接口理解及测试

时间:2022-05-24 01:36:44

1.  函数式接口的理解

  根据重构的思想,需要把容易变化的模块进行抽象并封装起来,从这个点来看,Java8新引入的函数式接口就是基于这个思想进行设计的。

2. 函数式接口定义 

  2.1 自定义如下

    需要FunctionalInterface关键字显示声明:

       @FunctionalInterface
    public interface AppleInterface {
      public void test();
    }

      2.2  系统预定义

     java.util.function.Consumer;
   java.util.function.Function;
   java.util.function.Predicate;
   java.util.function.Supplier;

     可以去查看源码了解具体的细节,这几个接口包括了常用的一些场景,一般可满足需要

3. 函数式接口的使用

  函数式接口一般使用前需要先定义,也可以使用系统预定义的几个函数式接口

  函数式接口的使用和使用一个变量没有区别,显示声明定义,格式如下:

  FunctionInterface interface=null;

  这里的interface虽然看起来是一个变量,可是实际却是一段行为代码,用于执行具体的业务逻辑,可以*在方法接口间传递,也可以直接执行

  interface.doSomeThing();

  如定义函数式接口为参数的接口:

  public void filter(FunctionInterface interface)
  {
    interface.doSomeThing();
  }

4. 函数式接口练习

4.1 自定义实体类Apple

public class Apple {
private String color;
private float weight; public Apple(String color, float weight) {
this.color = color;
this.weight = weight;
} public String getColor() {
return color;
} public void setColor(String color) {
this.color = color;
} public float getWeight() {
return weight;
} public void setWeight(float weight) {
this.weight = weight;
}
}

  4.2 自定义函数式接口

  该接口有一个test方法,不接收任何参数,也没有任何返回

@FunctionalInterface
public interface AppleInterface {
public void test();
}

  4.3  测试自定义函数式接口

   @Test
public void DefineFunctionInterface(){
//自定义函数式接口
AppleInterface at=()->System.out.println("define FunctionInterface AppleInterface.");
at.test();
}

  至此,就完成一个很简单的函数式接口的定义和调用

  4.4  系统预定义函数式接口

  Consumer<T>:该接口接收一个对象T,返回void,测试如下

   @Test
public void ConsumerTest(){
Consumer<Apple> consumer=(Apple app)->{System.out.println(app.getColor()+","+app.getWeight());};
List<Apple> apps=Arrays.asList(new Apple("red", 120),new Apple("blue", 80),
new Apple("green",100));
ConsumerApple(apps,consumer);
} public void ConsumerApple(List<Apple> apps,Consumer<Apple> c){
for(Apple app:apps){
c.accept(app);
}
}

  Supplier<T>:该接口不接收任何参数,返回一个对象T,测试如下:

   @Test
public void SupplierTest(){
Supplier<Apple> supplier=()->{return new Apple("hello supplier",999);};
Apple app=supplier.get();
System.out.println(app.getColor()+","+app.getWeight());
}

  Predicate<T>:该接口接收一个对象T,返回一个Boolean

   @Test
public void PredicateTest(){
//系统预定义函数式接口测试
Predicate<Apple> p1=(Apple a)->{if(a.getWeight()>90) return true;return false;};
Predicate<Apple> p2=(Apple a)->{if(a.getColor().equals("blue")) return true;return false;}; List<Apple> apps=Arrays.asList(new Apple("red", 120),new Apple("blue", 80),
new Apple("green",100)); filterApple(apps,p1);//筛选重量大于90g的苹果
filterApple(apps,p2);//筛选蓝色的苹果
} public void filterApple(List<Apple> apps,Predicate<Apple> p){
for(Apple app:apps){
if(p.test(app)){
System.out.println(app.getColor()+","+app.getWeight());
}
} } 

  Function<T,R>:  该接口接收一个对象T,经过转换判断,返回一个对象R

   @Test
public void FunctionTest(){
Function<String,Apple> function=(String s)->{return new Apple(s,666);};
Apple app=function.apply("red");
System.out.println(app.getColor()+","+app.getWeight());
app=function.apply("green");
System.out.println(app.getColor()+","+app.getWeight()); }