How to implement the Elvis operator in Java 8?
In Java 8, the Elvis operator can be simulated by chaining .map(...) calls on an Optional.ofNullable(...) and capping it with .orElse(...):
Optional.ofNullable(dataObject)
.map(DataObject::getNestedDataObject)
.map(NestedDataObject::getEvenMoreNestedDataObject)
...
.orElse(null);
A full example:
import java.util.Optional;
class Main {
// Data classes:
static class Animal {
Leg leg;
Animal(Leg leg) {
this.leg = leg;
}
Leg getLeg(){return this.leg;}
public String toString(){
String out = "This is an animal";
out += leg != null ? " with a leg" : "";
return out;
}
}
static class Leg {
Toes toes;
Leg(Toes toes) {
this.toes = toes;
}
Toes getToes(){return this.toes;}
public String toString(){
String out = "This is a leg";
out += toes != null ? " with a collection of toes" : "";
return out;
}
}
static class Toes {
Integer numToes;
Toes(Integer numToes) {
this.numToes = numToes;
}
Integer getNumToes(){return this.numToes;}
public String toString(){
String out = "This is a collection of ";
out += numToes != null && numToes > 0 ? numToes : "no";
out += " toes";
return out;
}
}
// A few example Elvis operators:
static Integer getNumToesOrNull(Animal a) {
return Optional.ofNullable(a)
.map(Animal::getLeg)
.map(Leg::getToes)
.map(Toes::getNumToes)
.orElse(null);
}
static Toes getToesOrNull(Animal a) {
return Optional.ofNullable(a)
.map(Animal::getLeg)
.map(Leg::getToes)
.orElse(null);
}
static Leg getLegOrNull(Animal a) {
return Optional.ofNullable(a)
.map(Animal::getLeg)
.orElse(null);
}
// Main function:
public static void main(String[] args) {
// Trying to access 'numToes':
System.out.println(getNumToesOrNull(new Animal(new Leg(new Toes(4))))); // 4
System.out.println(getNumToesOrNull(new Animal(new Leg(new Toes(null))))); // null
System.out.println(getNumToesOrNull(new Animal(new Leg(null)))); // null
System.out.println(getNumToesOrNull(new Animal(null))); // null
System.out.println(getNumToesOrNull(null)); // null
// Trying to access 'toes':
System.out.println(getToesOrNull(new Animal(new Leg(new Toes(4))))); // This is a collection of 4 toes
System.out.println(getToesOrNull(new Animal(new Leg(new Toes(null))))); // This is a collection of no toes
System.out.println(getToesOrNull(new Animal(new Leg(null)))); // null
System.out.println(getToesOrNull(new Animal(null))); // null
System.out.println(getToesOrNull(null)); // null
// Trying to access 'leg':
System.out.println(getLegOrNull(new Animal(new Leg(new Toes(4))))); // This is a leg with a collection of toes
System.out.println(getLegOrNull(new Animal(new Leg(new Toes(null))))); // This is a leg with a collection of toes
System.out.println(getLegOrNull(new Animal(new Leg(null)))); // This is a leg
System.out.println(getLegOrNull(new Animal(null))); // null
System.out.println(getLegOrNull(null)); // null
}
}
Maybe I'm overlooking something, but is there a reason that you can't use Optional#map?
The following example prints nothing, as Optional is short-circuiting in the sense that, if the value inside the Optional doesn't exist (it's null or the Optional is empty), it's treated as empty.
Optional.ofNullable("test")
.map(s -> null)
.ifPresent(System.out::println);
For that reason, I'd think you could just do the following:
return Optional.ofNullable(thing)
.map(x -> x.nullableMethod1(a))
.map(y -> y.nullableMethod2(b))
.map(Z::nullableMethod3);
This would map your thing if it exists, or return an empty Optional otherwise.