Looking at the source code for java.util.OptionalInt, an optional int is made of an int value and a boolean isPresent. The only way of obtaining an empty optional int is through the OptionalInt.empty() method which returns OptionalInt.EMPTY, the common instance for all empty optional ints.

If this is the case, then why is the isPresent() method implemented as return isPresent rather than this == EMPTY and reducing memory usage by getting rid of the isPresent field?

  • Probably would have been cleaner to use a separate subclass, like Guava did. – shmosel Sep 10 '18 at 1:00
  • 3
    Six of one, half-dozen of the other. It's an implementation choice that can go either way. – Louis Wasserman Sep 10 '18 at 1:01
  • 4
    Reminder that OptionalInt is a value-based class. – Sotirios Delimanolis Sep 10 '18 at 1:05

It's an implementation choice and the only people who can give a clear answer are the people who wrote the implementation.

But very likely it's a choice that puts readability, clarity and maintainability of code over memory micro optimizations.

It really doesn't make much sense to be worried about the space a boolean takes up in an object that wraps an int. If that space is relevant, an OptionalInt shouldn't be used in the first place, (or Java for that matter,) considering the object header needs at least 8 bytes (on 32 bit JVMs, more on 64 bit) already.

Java isn't for writing memory constrained applications, it's for writing easily maintainable code. And implementing isPresent() as getter for isPresent is easier to read, less error prone when refactoring and fits with established Java coding practices.

On a side note: Since Java objects are 8 byte aligned it probably doesn't even make the class smaller when you remove isPresent. As Eugene pointed out in a comment, it actually does increase the size, as the field isPresent lies right on the boundary and then 7 more bytes are added for padding.

  • 1
    minor nitpicking: I just tested this and it turns out that isPresent boolean is exactly on the boundary, after it there are 7 bytes, used just for padding, so the class would get smaller. and when you say that each object has one header, it is correct, but it's at least 12 bytes with CompressedOOPs, which are enabled by default. Otherwise, good answer. 1+ – Eugene Sep 10 '18 at 13:27
  • you're right about 32 bits (uuups!), but not for 64 it's usually the other way around, 16 bytes is an un-usual one, for much larger heaps – Eugene Sep 10 '18 at 13:32

As stated in OptionalInt.empty() method's documentation:

Though it may be tempting to do so, avoid testing if an object is empty by comparing with == against instances returned by OptionalInt.empty(). There is no guarantee that it is a singleton. Instead, use #isPresent().

And in fact, the following test passes:

import static org.junit.jupiter.api.Assertions.assertFalse;
import static org.junit.jupiter.api.Assertions.assertNotSame;
import static org.junit.jupiter.api.Assertions.assertSame;

import java.lang.reflect.InvocationTargetException;
import java.util.OptionalInt;
import org.junit.jupiter.api.Test;

class Tests {
    void test() {
        var empty = OptionalInt.empty();
        assertSame(empty, empty);
        var anotherEmpty = fabricateEmpty();
        assertNotSame(empty, anotherEmpty);

    private OptionalInt fabricateEmpty() {
        try {
            var constructor = OptionalInt.class.getDeclaredConstructor();
            return constructor.newInstance();
        } catch (InstantiationException | NoSuchMethodException | IllegalAccessException | InvocationTargetException e) {
            throw new RuntimeException(e);

And while it may seem contrived, many popular frameworks use reflection or Unsafe to construct instances.

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