I'm curious why is it possible to do this (at least on Java 8):


Optional.of(null) is basically a guaranteed null pointer. Making possible to invoke .orElse() on it gives a clumsy developer unexpected holes to fall into. I've been looking around to see if there's any justification to this. Maybe there's some scenario that this is supposed to address?

  • 9
    javac has no compiler support for checking if you pass a null, this is not very different than to any other method call. – Eugene Oct 31 at 15:30
  • 4
    @Eugene I'd say that the problem is more that javac has no sense of the semantics of Optional so it doesn't know what that line means in practice. – Federico klez Culloca Oct 31 at 15:31
  • orElse is like any method, it is based on the type of the variable, not the instance itself. So here, you have an Optional, that's all. The exception that will occurs is a runtime exception so it may or may not happen, that's not on the compiler hand, it is in yours – AxelH Oct 31 at 15:35
  • 3
    Why do you focus on the ability to invoke .orElse() when the actual error is the expression Optional.of(null) which will fail at runtime? Why do you think, allowing Optional.of(null) without .orElse() would be better? – Holger Oct 31 at 16:19
  • 3
    @kaya3 because javac is not an IDE. – Holger Oct 31 at 16:23

You can do this for the same reason you can write ((String) null).length(). The Java compiler has a static checker for certain things like type-safety, but does not check for or reject code which provably throws a NullPointerException. If it did, the code throw new NullPointerException(); would not be allowed either.

It's not generally the case that code which throws an exception is a mistake. While a static checker could detect this kind of thing and warn about it, it would be bad if this was an error. Some IDEs will generate their own warnings about probable-mistakes, but you have to decide what is or isn't worth checking for.

Detecting this probable-mistake requires a static checker designed with knowledge of the behaviour of the Optional.of method. The authors of the Java Language Specification have made the decision to warn for things like unsafe casts, but not for anything which depends on the semantics of the methods being used. One advantage of this decision is that it means the JLS can be maintained separately from the Java Class Library documentation.


There are languages where there is support for null checking right into the compiler (or even better languages that don't have such a "thing" at all) - this is burned into the compiler.

javac is not a such compiler and the be frank - I don't want it to become like this either. There are languages where there is syntax like ! or ? or !? - when I read this code it either screams on me or asks me something (this is my opinion).

Now, recall that Optional is designed for return types, so inside your method body you use an Optional chain of methods. If you really want to check if something is null or not there is Objects::requireNonNull - use that; if you are unsure if something is null or not, you could use Optional::ofNullable.

I know and read the arguments for Optional::of and Optional::ofNullable, I still don't like it, I wish it could be just the latter. But hey, people don't have to agree all the time: we do have Optional::isEmpty and Optional::isPresent. Is that a good decision? I don't know.

Like any other method call, you can pass null to any object reference, Optional is no different. Could they add semantics for the javac to support only Optional::of and null checking? Probably. How many people would request such a support for and this feature please?

  • 1
    Regarding Optional::isEmpty and Optional::isPresent, I think it is a good design choice to have both. isEmpty is a standard method for container types, and isPresent is useful to be passed as a method reference to Stream.filter, so you don't have to write .filter(o -> !o.isEmpty()) as a lambda function every time. – kaya3 Oct 31 at 15:52
  • 1
    @kaya3 Sometimes I wish Stream had some sort of "exclude(Predicate)" convenience method—it could simply delegate to filter(predicate.negate()). Though your argument obviously doesn't just apply to Stream. – Slaw Oct 31 at 16:11

Obviously the above code will always cause an exception. But what about:



Object someMethod() { return null; }

You probably think: sure, same thing.

Well, actually that is wrong. What if a subclass overrides someMethod() to return a value other than null?! Thus you can't decide at compile time whether that method will always return null at runtime.

Long story short: there are plenty of obvious, and also less obvious situations where the compiler could apply all kinds of techniques, like data flow analysis to determine whether code will result in a runtime exception or not. But there are also many others where that isn't possible.

The point here: it is up to the people defining the language to determine what they expect compilers to care about.

The java people opted for a simple compiler. One that compiles fast, and that isn't overly complicated to implement. Why? Because the compiler simply avoid overly complicated checking.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.