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I've recently read about this and seen people using this class, but in pretty much all cases, using null would've worked as well - if not more intuitively. Can someone provide a concrete example where Optional would achieve something that null couldn't or in a much cleaner way? The only thing I can think of is to use it with Maps that don't accept null keys, but even that could be done with a side "mapping" of null's value. Can anyone provide me with a more convincing argument? Thank you.

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random rant: i hate it when people overuse a "pattern" and make the code look so ugly for some theoretical benefit that doesn't exist... –  RAY Oct 12 '12 at 8:46
    
As of Java8, I would not use this Guava class anymore because it's less powerful than the JDK one. See stackoverflow.com/a/10756992/82609 –  Sebastien Lorber Apr 4 at 9:15

3 Answers 3

up vote 78 down vote accepted

Guava team member here.

Probably the single biggest disadvantage of null is that it's not obvious what it should mean in any given context: it doesn't have an illustrative name. It's not always obvious that null means "no value for this parameter" -- heck, as a return value, sometimes it means "error", or even "success" (!!), or simply "the correct answer is nothing". Optional is frequently the concept you actually mean when you make a variable nullable, but not always. When it isn't, we recommend that you write your own class, similar to Optional but with a different naming scheme, to make clear what you actually mean.

But I would say the biggest advantage of Optional isn't in readability: the advantage is its idiot-proof-ness. It forces you to actively think about the absent case if you want your program to compile at all, since you have to actively unwrap the Optional and address that case. Null makes it disturbingly easy to simply forget things, and though FindBugs helps, I don't think it addresses the issue nearly as well. This is especially relevant when you're returning values that may or may not be "present." You (and others) are far more likely to forget that other.method(a, b) could return a null value than you're likely to forget that a could be null when you're implementing other.method. Returning Optional makes it impossible for callers to forget that case, since they have to unwrap the object themselves.

For these reasons, we recommend that you use Optional as a return type for your methods, but not necessarily in your method arguments.

(This is totally cribbed, by the way, from the discussion here.)

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+1 for a great explanation. I don't know if this is the inspiration, but I would add a pointer to option types in SML, OCaml, and F#, which have many of the same semantics. –  Adam Mihalcin Mar 5 '12 at 3:45
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It's well-established that Map returns null if a key is unmapped, but recall that if you do map.put(key, null), then map.containsKey(key) will return true but map.get(key) will return null. Optional can be handy in clearing up the distinction between the "explicitly mapped to null" case and the "not present in the map" case. I'll grant that Optional can be abused, but I'm not yet convinced that the case you describe is an abuse. –  Louis Wasserman Mar 5 '12 at 6:21
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To use an antiquated analogy, there used to be these giant things called "phone books" :-) and if I asked you to look up someone's number and you said "there's no number for that person" I'd say "what do you mean, they're in there with an unlisted number or you just couldn't find an entry for them at all?" Those two possible responses map nicely to Optional.absent() and null respectively. Optional.absent() is the definitive "positive negative." –  Kevin Bourrillion Mar 6 '12 at 1:37
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Yeah, but that requires you to do a map lookup twice, which can be unpleasantly expensive, especially e.g. for a TreeMap in which each lookup costs O(log n). For some of us -- myself included -- that inefficiency grates. –  Louis Wasserman Mar 6 '12 at 4:09
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@RAY: In a way, Optional<T> is that "found, but not valid" value. Or more precisely, Optional<T> is a way to decorate any type T with an extra "found, but not valid" value -- creating a new type by combining two existing types. If you have a hundred classes, it can get messy to have to create a separate "found, but not valid" value for each one, but Optional<T> can easily work for all of them. –  Daniel Pryden Mar 7 '12 at 0:03

It really looks like the Maybe Monad pattern from Haskell.

You should read the following, Wikipedia Monad (functional programming):

And read From Optional to Monad with Guava on Kerflyn's Blog, which discusses about the Optional of Guava used as a Monad:


Edit: With Java8, there's a built-in Optional that has monadic operators like flatMap. This has been a controversial subject but finally has been implemented.

See http://www.nurkiewicz.com/2013/08/optional-in-java-8-cheat-sheet.html

public Optional<String> tryFindSimilar(String s)  //...

Optional<Optional<String>> bad = opt.map(this::tryFindSimilar);
Optional<String> similar =       opt.flatMap(this::tryFindSimilar);

The flatMap operator is essential to allow monadic operations, and permits to easily chain calls that all return Optional results.

Think about it, if you used the map operator 5 times you would end up with an Optional<Optional<Optional<Optional<Optional<String>>>>>, while using flatMap would give you Optional<String>

Since Java8 I would rather not use Guava's Optional which is less powerful.

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The most important advantage of Optional is that it adds more details to the contract between the implementer and caller of a function. For this reason is both useful for parameters and return type.

For example:

1)

Optional<Integer> maxPrime(Optional<Integer> from, Optional<Integer> to)

The contract here clearly specifies that there is a chance that a result is not returned but also shows that it will work with from and to as absent. The fact that in general you might not allow null as input parameters is a decision that might be useful but not necessary to be enforced.

2)

Optional<Integer> maxPrime(Optional<Integer> from, Integer to)

The contract specifies that the from is optional so an absent value might have a special meaning like start from 2. Again the contract is clear, and if the convention is to always have Optionals I can expect that a null value for to will throw an exception.

So the good part of using Optional is that the contract became both descriptive (similar with @NotNull annotation) but also formal since you must write code .get() to cope with Optionals.

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Why use an Optional<List> when an empty List would be cleaner? –  RAY Jun 13 '13 at 2:36
    
I chose the wrong example on the return. With collections you can make the convention to always return an empty collection instead a null value. If this convention is used you don't need optional for collections. Optional could be perceived as a collection with zero or one element so it is not needed to put it around other collection. –  raisercostin Jun 14 '13 at 17:19

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