15

Using Optional, I want to return a certain implementation (First or Second) of an interface according to the mapping result. This is the interface that First and Second implement:

public interface MyInterface {
    Number number();
}

The following Optional usage is erroneous:

final String string = ...                          // might be null
final Number number = Optional.ofNullable(string)
        .map(string -> new First())
        .orElse(new Second())                      // erroneous line
        .number();

orElse (com.mycompany.First) in Optional cannot be applied to (com.mycompany.Second)

Why is the line erroneous since both of the classes First and Second implement the interface MyInterface and the method MyInterface::number returns Number? How to implement this correctly?

5 Answers 5

12

I have discovered out that the method Optional::map returns U which doesn't allow apply returned First to another type such Second is. An explicit casting to its interface or requiring it within the map method is a way to go:

final Number number = Optional.ofNullable("")
        .<MyInterface>map(string -> new First())
        .orElse(new Second())
        .number(); 

__

Edit: I have found this out after posting the question. However, I am keeping both since I haven't found a similar solution anywhere else yet.

2
  • 7
    I would say specifying the type parameter explicitly, is better than casting. Something like this: .<MyInterface>map(string -> new First())
    – marstran
    Jan 17, 2019 at 14:56
  • 5
    @Nikolas In what way do you feel it is "shamefully"? Self-answers are perfectly acceptable here.
    – glglgl
    Jan 17, 2019 at 15:01
6

The problem is that Java infers the mapped type to be First, and Second is not an instance of First. You need to explicitly give Java a bit of a nudge to know the right type:

private static void main(String... args)
{
    final String string = "";
    final Number number = Optional.ofNullable(string)
        .<MyInterface>map(str -> new First())  // Explicit type specified 
        .orElse(new Second())
        .number();
}

This is a generic limitation of type inference along method chains. It's not limited to Optional.

There has been some suggestion to have type inference work along method chains. See this question: Generic type inference not working with method chaining?

Maybe in a future version of Java the compiler will be clever enough to figure this out. Who knows.

11
  • Java *infers* the mapped type to be First - that's a right formulation. Jan 17, 2019 at 15:04
  • @Nikolas Yep. It's not a cast as you stated but rather simply explicitly specifying the type.
    – Michael
    Jan 17, 2019 at 15:11
  • @Michael I don't think that would be possible, AFAIK, inference works on per method basis - first infer one, then the next and so on; what you are implying must work for all chained methods at once - I doubt that would be ever possible.
    – Eugene
    Jan 17, 2019 at 20:11
  • @Eugene Read the link in my answer. It ends with "but perhaps with additional enhancements it could be added in the future".
    – Michael
    Jan 18, 2019 at 9:15
  • 3
    @Eugene compare Java 8’s type inference for nested method invocations with what we had before. Extending it to chained method invocations would be a change of a similar magnitude. A big change, but not impossible.
    – Holger
    Jan 18, 2019 at 10:29
3

I would write that without an explicit cast:

Optional.ofNullable(string)
        .map(s -> {
             MyInterface m = new First();
             return m;  
        })
        .orElse(new Second())
        .number();
2
  • 1
    I would write that without a cast - Writing without a cast doesn't mean it won't happen, in this case you'll have an implicit upcast. An explicit cast makes the lambda shorter (but it's still better to specify the type in the map call)
    – BackSlash
    Jan 17, 2019 at 15:00
  • 3
    @BackSlash an explicit type cast like with map(s -> (MyInterface)new First()), is error prone. The problem is that a type cast can be either, narrowing or widening. While widening is intended, narrowing is still allowed, so if First mistakenly doesn’t implement MyInterface (and is not final), the compiler will not object and insert the unintended runtime type cast which will fail with a ClassCastException. In contrast, .<MyInterface>map(s -> new First()) and the code of this answer both use implicit conversions, which are only allowed if First actually implements MyInterface.
    – Holger
    Jan 18, 2019 at 10:59
1

You can also write:

Optional.ofNullable(string)
    .map(s -> new First())
    .filter(MyInterface.class::isInstance)
    .map(MyInterface.class::map)
    .orElse(new Second())
    .number()

Or, add a utility function to your codebase:

// the Class Object is unused and only present so the Compiler knows which Type you actually want
public static <T, R> Function<? super T, R> mapAs(Function<? super T, ? extends R> mappingFunction, Class<R> clazz) {
    return mappingFunction::apply;
}
Optional.ofNullable(string)
    .map(mapAs(s -> new First(), MyInterface.class))
    .orElse(new Second())
    .number()
0

Well as the explanation stands true in other answers as well, its the type inferred while using the map that errors out the orElse in use, a cleaner way to represent the suggested solution would be :

Optional.ofNullable(string)
        .map(s -> (MyInterface) new First()) // casting rather than binding here
        .orElse(new Second())
        .number();
1
  • 1
    Opinion: Its just more verbal in terms of casting that would be required for the contracts of map and orElse to be both followed at the same time.
    – Naman
    Jan 17, 2019 at 17:25

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