Java is pass-by-value. The value of an object reference is an object reference, not the object itself. And so the
toCommand method receives a copy of the value, which is a reference to the object — the same object that the caller is referencing.
This is exactly the same as when you're referencing an object from two variables:
buf1 = new StringBuffer();
buf2 = buf1; // Still ONE object; there are two references to it
System.out.println(buf2.toString()); // "Hi there"
Gratuitous ASCII art:
| === The Object === |
buf2--------->| Data: |
| * foo = "bar" |
| * x = 27 |
Another way to think of it is that the JVM has a master list of all objects, indexed by an ID. We create an object (
buf1 = new StringBuffer();) and the JVM assigns the object the ID 42 and stores that ID in
buf1 for us. Whenever we use
buf1, the JVM gets the value 42 from it and looks up the object in its master list, and uses the object. When we do
buf2 = buf1;, the variable
buf2 gets a copy of the value 42, and so when we use
buf2, the JVM sees object reference #42 and uses that same object. This is not a literal explanation (though from a stratospheric viewpoint, and if you read "JVM" as "JVM and memory manager and OS", it's not a million miles off), but helpful for thinking about what object references actually are.
With that background, you can see how
toCommand gets a reference (42 or whatever), not the actual
StringBuffer object data. And so operations on it look it up in the master list and alter its state (since it holds state information and allows us to change it). The caller sees the changes to the object's state because the object holds the state, the reference just points to the object.
Either way... it should be considered a bad practice to write code like this in Java, right?
Not at all, it's normal practice. It would be very hard to use Java (or most other OOP languages) without doing this. Objects are big compared to primitives like
long, and so they're expensive to move around; object references are the size of primitives, so they're easily passed around. Also, having copies of things makes it difficult for various parts of a system to interact. Having references to shared objects makes it quite easy.