Optional<ArrayList<String>> option = Optional.of(new ArrayList<>());

Optional<ArrayList<?>> doesntWork = option;

Optional<ArrayList<?>> works = option.map(list -> list);

The first attempted assignment does not compile, but the second one with the map does. It feels like the map shouldn't actually accomplish anything, but for some reason it turns my Optional<ArrayList<String>> into an Optional<ArrayList<?>>. Is there some sort of implicit cast going on?


If you look into the code of map and follow all the method calls, you'll see that option.map(list -> list) ends up returning new Optional<>(option.get()). So you can replace your last assignment with:

Optional<ArrayList<?>> works = new Optional<>(option.get());

This creates a new Optional<ArrayList<?>> and initializes its value instance variable (whose type is ArrayList<?>) with the ArrayList<String> returned by map.get(). This is a valid assignment.

Is there some sort of implicit cast going on?

No, map returns a new Optional instance. It doesn't cast the original instance on which it was called.

Here's the chain of method calls:

option.map(list -> list)

returns (since option is not empty)


which in your case is the same as


which returns (since the value is not null):


which returns

new Optional<>(value)
  • Interesting, it just seems so strange that .map(list -> list) would do something, but yeah I suppose that makes sense. – Carl Minden Apr 4 at 8:26
  • 3
    See also this answer. Its last code example uses map(Function.identity()) where a direct assignment of the Optional is not possible. In the context of this question, A would ArrayList<?> and B would be ArrayList<String>. – Holger Apr 4 at 10:31

Well the first one does not work because generics are invariant, the only way to make them covariant is to add a bounded type for example:

 Optional<? extends ArrayList<String>> doesntWork = option; 

that would compile.

And when you say that the map step should no accomplish anything is well, not correct. Look at the definition of Optional::map:

public <U> Optional<U> map(Function<? super T, ? extends U> mapper) {
    if (!isPresent()) {
        return empty();
    } else {
        return Optional.ofNullable(mapper.apply(value));

roughly speaking it does transform from Optional<T> to Optional<U>...


Your option.map has the signature

<ArrayList<?>> Optional<ArrayList<?>> java.util.Optional.map(Function<? super ArrayList<String>, ? extends ArrayList<?>> mapper)

So this

Optional<? extends ArrayList<?>> doesntWork = option;

does compile.

  • Yeah, that does compile, but I am more interested in why the map fixes it, this is just a simplistic version of what I am actually trying to do. In my actual code I am overriding a method that needs to return the equivalent of the Optional<ArrayList<?>> so just changing the type of that assignment doesn't really help. – Carl Minden Apr 4 at 8:22

In your latter case the return type of the Optional.map method is implicitly determined by the type of your works variable. That's why there is a difference.

  • But how is that different from the first assignment? if the signature of map is determined to by the type declaration of the assignment to return Optional<ArrayList<?>> then that means the return of the lambda would be of the type ArrayList<?> and since my lambda is (at least as far as I can tell) returning the concrete type ArrayList<String> something somewhere is casting it after the fact I guess? – Carl Minden Apr 4 at 8:24
  • Yes, exactly. The difference is that the type of option is static where the return type of Optional.map is dynamically determined by the to be assigned variable. – dpr Apr 4 at 8:42

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