The big thing to keep in mind is that function calls provide a universal interface. Any object can interact with other objects using function calls. All you have to do is define the right signatures, and away you go. The only catch is that you have to interact solely through these function calls, which often works well but can be clunky in some cases.
The main reason to expose state variables directly would be to be able to use primitive operators directly on these fields. When done well, this can enhance readability and convenience: for example, adding Complex numbers with +
, or accessing a keyed collection with []
. The benefits of this can be surprising, provided that your use of the syntax follows traditional conventions.
The catch is that operators are not a universal interface. Only a very specific set of built-in types can use them, these can only be used in the ways that the language expects, and you cannot define any new ones. And so, once you've defined your public interface using primitives, you've locked yourself into using that primitive, and only that primitive (and other things that can be easily cast to it). To use anything else, you have to dance around that primitive every time you interact with it, and that kills you from a DRY perspective: things can get very fragile very quickly.
Some languages make operators into a universal interface, but Java doesn't. This is not an indictment of Java: its designers chose deliberately not to include operator overloading, and they had good reasons to do so. Even when you're working with objects that seem to fit well with the traditional meanings of operators, making them work in a way that actually makes sense can be surprisingly nuanced, and if you don't absolutely nail it, you're going to pay for that later. It is often much easier to make a function-based interface readable and usable than to go through that process, and you often even wind up with a better result than if you'd used operators.
There were tradeoffs involved in that decision, however. There are times when an operator-based interface really does work better than a function-based one, but without operator overloading, that option just isn't available. Trying to shoehorn operators in anyway will lock you into some design decisions that you probably don't really want to be set in stone. The Java designers thought that this tradeoff was worthwhile, and they might even have been correct about that. But decisions like this don't come without some fallout, and this kind of situation is where the fallout hits.
In short, the problem isn't exposing your implementation, per se. The problem is locking yourself into that implementation.