You are asking a question with a wrong premise. Since the
== operator does not compare memory locations, it isn’t sensible to changes of memory location per se. The
== operator, applied to references, compares the identity of the referred objects, regardless of how the JVM implements it.
To name an example that counteracts the usual understanding, a distributed JVM may have objects held in the RAM of different computers, including the possibility of local copies. So simply comparing addresses won’t work. Of course, it’s up to the JVM implementation to ensure that the semantics, as defined in the Java Language Specification, do not change.
If a particular JVM implementation implements a reference comparison by directly comparing memory locations of objects and has a garbage collector that can change memory locations, of course, it’s up to the JVM to ensure that these two features can’t interfere with each other in an incompatible way.
If you are curious on how this can work, e.g. inside optimized, JIT compiled code, the granularity isn’t as fine as you might think. Every sequential code, including forward branches, can be considered to run fast enough to allow to delay garbage collection to its completion. So garbage collection can’t happen at any time inside optimized code, but must be allowed at certain points, e.g.
- backward branches (note that due to loop unrolling, not every loop iteration implies a backward branch)
- memory allocations
- thread synchronization actions
- invoking a method that hasn’t been inlined/analyzed
- maybe something special, I forgot
So the JVM emits code containing certain “safe points” at which it is known, which references are currently held, how to replace them, if necessary and, of course, changing locations has no impact on the correctness. Between these points, the code can run without having to care about the possibility of changing memory locations whereas the garbage collector will wait for code reaching a safe point when necessary, which is guaranteed to happen in finite, rather short time.
But, as said, these are implementation details. On the formal level, things like changing memory locations do not exist, so there is no need to explicitly specify that they are not allowed to change the semantics of Java code. No implementation detail is allowed to do that.