From Nikita Salnikov-Tarnovski's blog:
The shallow heap is easy – it consists of only the heap occupied by
the object itself. There are some nuances to how to calculate it, but
for the scope of this article we leave it as is. Stay tuned for future
posts on the same topic.
The retained heap is in many ways more interesting. Only rarely are
you interested in the shallow heap, in most cases your actual question
can be translated to “If I remove this object from the memory, how
much memory can now be freed by the garbage collector”.
Now, as we all remember, all Java garbage collection (GC) algorithms
follow this logic:
1)There are some objects which are considered “important” by the GC.
These are called GC roots and are (almost) never discarded. They are,
for example, currently executing method’s local variables and input
parameters, application threads, references from native code and
similar “global” objects.
2)Any objects referenced from those GC roots are assumed to be in use
and hence not discarded by the GC. One object can reference another in
different ways in Java, in the most common case an object A is stored
in a field of an object B. In such case we say “B references A”.
3)The process is repeated until all objects that can be transitively
reached from GC roots are visited and marked as “in use”.
4)Everything else is unused and can be thrown away.