@erickson is more or less correct. The hashcode returned by
java.lang.Object.hashCode() does not change for the lifetime of the object.
The way this is (typically) implemented is rather clever. When an object is relocated by the garbage collector, its original hashcode has to be stored somewhere in case it is used again. The obvious way to implement this would be to add a 32 bit field to the object header to hold the hashcode. But that would add a 1 word overhead to every object, and would waste space in the most common case ... where an Object's
hashCode method is not called.
The solution is to add two flag bits to the object's flag word, and use them (roughly) as follows. The first flag is set when the
hashCode method is called. A second flag tells the
hashCode method whether to use the object's current address as the hashcode, or to use a stored value. When the GC runs and relocates an object, it tests these flags. If the first flag is set and second one is unset, the GC allocates one extra word at the end of the object and stores the original object location in that word. Then it sets the two flags. From then on, the
hashCode method gets the hashcode value from the word at the end of the object.
In fact, an
identityHashCode implementation has to behave this way to satisfy the following part of the general hashCode contract:
"Whenever it is invoked on the same object more than once during an execution of a Java application, the hashCode method must consistently return the same integer, provided no information used in equals comparisons on the object is modified. This integer need not remain consistent from one execution of an application to another execution of the same application."
A hypothetical implementation of
identityHashCode() that simply returned the current machine address of an object would violate the highlighted part if/when the GC moved the object to a different address. The only way around this would be for the (hypothetical) JVM to guarantee that an object never moves once
hashCode has been called on it. And that would lead to serious and intractable problems with heap fragmentation.