Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a class that does some recursive merge sorting on a generic List, as long as the element implement Comparable. I have a void method called mergeSort(List toSort), and a method mergeSortedLists(List left, List right) that takes two lists that have already been sorted, and then combines them into one sorted list. The problem is, the mergeSort(...) method doesn't seem to be manipulating the toSort variable. Well it is, but the changes don't show after it jumps up a level. Here are the sorting methods:

public static <E extends Comparable<E>> void mergeSort(List<E> toSort)
  if(toSort.size() > 1)
    List<E> temp = toSort.subList(0, toSort.size()/2);

    ArrayList<E> left = new ArrayList<E>(0);
      for(E e : temp) left.add(e);

    temp = toSort.subList(toSort.size()/2, toSort.size());

    ArrayList<E> right = new ArrayList<E>(0);
      for(E e : temp) right.add(e);

    if(right.size() != 1) mergeSort(right);
    if(left.size() != 1) mergeSort(left);

    toSort = mergeSortedLists(left, right);

public static <E extends Comparable<E>> List<E> mergeSortedLists(List<E> leftList, List<E> rightList)
  ArrayList<E> list = new ArrayList<E>();

  while(!leftList.isEmpty() && !rightList.isEmpty())
    if((leftList.get(0)).compareTo(rightList.get(0)) <= 0)




  return list;

I normally have print statements for error checking, and those show that mergeSortedLists(...) sorts correctly and returns the correct list. Then, I assign the toSort variable in mergeSort(...) to whatever mergeSortedLists(...) returns. That assignment works. Now, it jumps back up a level to combine that list with a different list, and the changes seem to be lost. I have no clue what is happening.

share|improve this question

2 Answers 2

up vote 1 down vote accepted

Instead of this

toSort = mergeSortedLists(left, right); 


toSort.addAll(mergeSortedLists(left, right));

The problem with your approach is that you reset the reference to the list, but that does not propagate back to the original function. The suggested version manipulates the original list that you were given the reference to. Since you don't change the reference, the changes to the original list will show up at the caller after the function returns.

To clarify: when you pass an argument to a function, a copy of that argument is created that functions as the local variable within the function. When you make changes to the value of that variable itself, those changes are made to the copy and not to the original (from which the copy was made when the function is called). In the suggested version, the copy is a reference, so altohugh the reference is copied, the object (here: list) is not, so the two rerefrences point to the same object. Thus changes made to the object via the copy (local variable), "show up" when the function returns.

share|improve this answer
@user1359900: For the reason I mentioned in my answer (and Attila is alluding to) - parameter-passing in Java is always by value, not by reference. Here's a reasonable-looking link (please ignore the title though, I'm not posting it in a pointed way): javadude.com/articles/passbyvalue.htm –  Stuart Golodetz Apr 26 '12 at 23:41
The essential point is that given that parameter-passing is by value in Java, you need to find a way to modify the original list. Attila's approach is to work with the original list via the reference that's passed in rather than trying to create a new list; the approach I gave is to create a new list but return it so that it can be assigned over the original list. Both will work in this instance. (That wouldn't be true if you were working with immutable lists - in that case you'd have to go for the return approach.) I guess Attila's approach is more imperative, mine's more functional. –  Stuart Golodetz Apr 26 '12 at 23:44
@user1359900 - see my updated answer –  Attila Apr 26 '12 at 23:46

Parameters (even references to objects!) are passed by value in Java, so you're modifying the local copy of toSort, not the one in the calling function. One way of getting around this would be to return the list you pass in again, i.e.

public static <E extends Comparable<E>> List<E> mergeSort(List<E> toSort)

Then you'd say things like:

right = mergeSort(right);

etc., and return using:

return mergeSortedLists(left, right);

I haven't thoroughly read through the rest of the code, but hopefully that should get you on the right lines :)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.