In Java, arrays are reference types, not value types. This means that array variables only store references to the actual array.
For example, consider this code:
int[] numbers = new int[3];
In this example, numbers
is a reference to an array of 3 int
s. This can be illustrated as follows:
Java Stack  Java Heap

 Array of ints:
++  ++++
 numbers > 0  0  0 
++  ++++
 0 1 2
Now suppose you have a method like this:
public void compute(int[] someValues) {
someValues[2] = 78;
}
And suppose you call this method with your numbers
variable as the argument:
int[] numbers = new int[3];
compure(numbers);
In this case the numbers
reference is passed by value to compute
. Therefore, someValues
is a copy of the numbers
reference (not a copy of the array that numbers
refers to). Therefore, it looks something like this:
Java Stack  Java Heap

 Array of ints:
++  ++++
 numbers > 0  0  0 
++  > ++++
 / 0 1 2
++  /
 someValues /
++ 
After compute
returns, it will look like this:
Java Stack  Java Heap

 Array of ints:
++  ++++
 numbers > 0  0  78 
++  > ++++
 / 0 1 2
++  /
 someValues /
++ 
numbers[2]
will be equal to someValues[2]
because numbers
and someValues
reference the same array.
Sigh, it appears this has been answered similarly since I began writing my answer. Hopefully the ASCII diagrams make it worth keeping!