空指针异常是导致Java应用程序失败的最常见原因。以前,为了解决空指针异常,Google公司著名的Guava项目引入了Optional类,Guava通过使用检查空值的方式来防止代码污染,它鼓励程序员写更干净的代码。受到Google Guava的启发,Optional类已经成为Java 8类库的一部分。Optional实际上是个容器:它可以保存类型T的值,或者仅仅保存null。Optional提供很多有用的方法,这样我们就不用显式进行空值检测。
Optional.of()或者Optional.ofNullable():创建Optional对象,差别在于of不允许参数是null,而ofNullable则无限制。
[java] view plain copy // 参数不能是null Optional<Integer> optional1 = Optional.of(1); // 参数可以是null Optional<Integer> optional2 = Optional.ofNullable(null); // 参数可以是非null Optional<Integer> optional3 = Optional.ofNullable(2);Optional.empty():所有null包装成的Optional对象: [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(null); Optional<Integer> optional2 = Optional.ofNullable(null); System.out.println(optional1 == optional2);// true System.out.println(optional1 == Optional.<Integer>empty());// true Object o1 = Optional.<Integer>empty(); Object o2 = Optional.<String>empty(); System.out.println(o1 == o2);// true
isPresent():判断值是否存在 [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Integer> optional2 = Optional.ofNullable(null); // isPresent判断值是否存在 System.out.println(optional1.isPresent() == true); System.out.println(optional2.isPresent() == false);
ifPresent(Consumer consumer):如果option对象保存的值不是null,则调用consumer对象,否则不调用 [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Integer> optional2 = Optional.ofNullable(null); // 如果不是null,调用Consumer optional1.ifPresent(new Consumer<Integer>() { @Override public void accept(Integer t) { System.out.println("value is " + t); } }); // null,不调用Consumer optional2.ifPresent(new Consumer<Integer>() { @Override public void accept(Integer t) { System.out.println("value is " + t); } });
orElse(value):如果optional对象保存的值不是null,则返回原来的值,否则返回value [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Integer> optional2 = Optional.ofNullable(null); // orElse System.out.println(optional1.orElse(1000) == 1);// true System.out.println(optional2.orElse(1000) == 1000);// true
orElseGet(Supplier supplier):功能与orElse一样,只不过orElseGet参数是一个对象 [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Integer> optional2 = Optional.ofNullable(null); System.out.println(optional1.orElseGet(() -> { return 1000; }) == 1);//true System.out.println(optional2.orElseGet(() -> { return 1000; }) == 1000);//true
orElseThrow():值不存在则抛出异常,存在则什么不做,有点类似Guava的Precoditions [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Integer> optional2 = Optional.ofNullable(null); optional1.orElseThrow(()->{throw new IllegalStateException();}); try { // 抛出异常 optional2.orElseThrow(()->{throw new IllegalStateException();}); } catch(IllegalStateException e ) { e.printStackTrace(); }
filter(Predicate):判断Optional对象中保存的值是否满足Predicate,并返回新的Optional。 [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Integer> optional2 = Optional.ofNullable(null); Optional<Integer> filter1 = optional1.filter((a) -> a == null); Optional<Integer> filter2 = optional1.filter((a) -> a == 1); Optional<Integer> filter3 = optional2.filter((a) -> a == null); System.out.println(filter1.isPresent());// false System.out.println(filter2.isPresent());// true System.out.println(filter2.get().intValue() == 1);// true System.out.println(filter3.isPresent());// false
map(Function):对Optional中保存的值进行函数运算,并返回新的Optional(可以是任何类型) [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Integer> optional2 = Optional.ofNullable(null); Optional<String> str1Optional = optional1.map((a) -> "key" + a); Optional<String> str2Optional = optional2.map((a) -> "key" + a); System.out.println(str1Optional.get());// key1 System.out.println(str2Optional.isPresent());// false
flatMap():功能与map()相似,差别请看如下代码。flatMap方法与map方法类似,区别在于mapping函数的返回值不同。map方法的mapping函数返回值可以是任何类型T,而flatMap方法的mapping函数必须是Optional。 [java] view plain copy Optional<Integer> optional1 = Optional.ofNullable(1); Optional<Optional<String>> str1Optional = optional1.map((a) -> { return Optional.<String>of("key" + a); }); Optional<String> str2Optional = optional1.flatMap((a) -> { return Optional.<String>of("key" + a); }); System.out.println(str1Optional.get().get());// key1 System.out.println(str2Optional.get());// key1
